KR102085158B1 - Contact-type Insulation system window structure - Google Patents

Abstract

The present invention relates to a contact type insulation system window structure capable of maximizing insulation. According to the present invention, the contact type insulation system window structure is configured to slide along a rail formed on a window frame, wherein the window frame is formed in a rectangular frame shape by assembling a vertical window frame member and a horizontal window frame member, and the vertical window frame member and the horizontal window frame member are each formed by a combination of a first member located at the interior side, a second member connected to the first member with polyamide, and a third member located at the exterior side and connected to the second member with polyamide.

Description

Contact-type insulation system window structure

The present invention relates to a closed-type insulation system window structure, and more specifically, in constructing a window frame and a window, connects the inner and outer members with heterogeneous materials to maximize thermal insulation, and prevents contact with the outer wall surface outside the window frame. By adding a member to improve the waterproofing function, and through a simple configuration of providing a pressing means, the packing member coupled to the rim of the window is brought into close contact with the window frame when the window is closed. It is intended to provide a window structure of a close contact type insulation system.

In general, a window (窓 戶) refers to a variety of windows or doors that are installed in the opening (開口 部), such as a window or doorway to block the interior of the building from the outside, such a window frame to form an outer window frame And it is made of the configuration of the door or glass window that is configured in the window frame.

In the case of conventional window systems, various configurations are provided for insulation, and a representative example is the insulating sliding window system of Korean Patent Publication (A) 10-2016-0095678 (2016.08.12.). Chassis frame; A first window frame in which a first glass window is inserted and coupled to the chassis frame and slidingly moved on a first lower rail of the chassis frame; And a second window frame in which a second glass window is inserted, coupled to the chassis frame adjacent to the first window frame, and slidingly moved on a second lower rail of the chassis frame, adjacent to the second window frame. The outer wall of the chassis frame is provided higher than the height of the first and second lower rails and the height of the inner wall of the chassis frame.

As another example, an insulation system window of Korean Patent Registration No. (B1) 10-1287796 (2013.07.23.) Is provided, and its configuration includes a first upper frame, a first lower frame, a left frame and a right side provided in the window frame. By providing a plurality of heat-crossing members made of polyamide material in various forms on the second upper frame, the second lower frame, the outer frame, and the right frame provided on the frame and the window frame, the heat conduction and the heat crossing inside and outside the window are blocked. This is to improve thermal insulation performance by effectively preventing heat conduction and heat crossing through the frame of the material.

However, in the case of the above-mentioned configurations, most of them have improved the configuration of the window frame or the window frame or improved the configuration of the packing member to provide heat insulation, and there is a limitation in improving heat insulation.

KR 1020160095678 A 2016.08.12. KR 101287796 B1 2013.07.23.

Accordingly, the present inventors in the above-described conventional window system, in a state where the window is closed, the adhesive force between the window frame and the packing member coupled to the frame of the window is reduced, thereby failing to provide a perfect heat insulation effect and through the boundary between the wall and the window frame. The present invention has been researched and developed in view of problems such as leakage.

That is, in the present invention, in constructing the window frame and the window, it is possible to connect the inner and outer members with different materials to maximize thermal insulation, and to improve the waterproofing function by adding a blocking member in close contact with the outer wall surface to the outside of the window frame. In addition, through the simple configuration of providing a pressing means, the technical problem of the present invention is to provide a window structure of a close contact type insulation system so that the packing member coupled to the rim of the window is in close contact with the window frame to improve heat insulation when the window is closed. The present invention has been completed.

In the present invention as a solution to the problem in the window structure of a close-up insulated system configured to slide the slide along the rail formed in the window frame by coupling the door to the rail coupling groove formed in the window; The window frame is composed of a rectangular frame shape by assembling a vertical window frame member and a horizontal window frame member, and the vertical window frame member and the horizontal window frame member are each a first member located on the indoor side, and a first member connected to the polyamide. A combination of a second member and a third member located on the outdoor side connected to the second member and polyamide; A pair of rails for moving a window are coupled to the second member and the third member, and a partition member is disposed between the rails to be coupled to the third member, and the third member has an insect screen rail for installing an insect screen. It is provided to the side, the first member is coupled to the finishing member for the window frame of the synthetic resin composition toward the interior; The window is composed of a rectangular frame by assembling a vertical window member and a horizontal window member, and the vertical window member and the horizontal window member are each made of an inner member located on the indoor side and an outer member located on the outdoor side made of polyamide. Connecting, forming a rail coupling groove so that the rail provided on the window frame is coupled; It is characterized in that a horizontally movable door assembly of a door is installed in a rail engaging groove at the bottom of the window so that the window can slide along the rail.

In the window structure of the contact type heat insulation system configured to slide the slide along the rail formed in the window frame by coupling the door to the rail coupling groove formed in the window; The window frame is composed of a rectangular frame shape by assembling a vertical window frame member and a horizontal window frame member, and the vertical window frame member and the horizontal window frame member are each a first member located on the indoor side, and a first member connected to the polyamide. A combination of a second member and a third member located on the outdoor side connected to the second member and polyamide; The upper side of the first member and the third member is combined with an auxiliary window frame member having a synthetic resin structure, and a pair of rails for moving a window is made of aluminum material and coupled to the upper side of the auxiliary window frame member, and between these rails The partition member is provided integrally with the auxiliary window frame member, the third member is provided with an insect screen rail for installing an insect screen, and the first member combines a finishing member for a window frame of synthetic resin composition toward the interior; The window is composed of a rectangular frame by assembling a vertical window member and a horizontal window member, and the vertical window member and the horizontal window member are each made of an inner member located on the indoor side and an outer member located on the outdoor side made of polyamide. Connecting, forming a rail coupling groove so that the rail provided on the window frame is coupled; It is characterized in that a horizontally movable door assembly of a door is installed in a rail engaging groove at the bottom of the window so that the window can slide along the rail.

In addition, the rail and the partition member is characterized in that the second member and the third member are prefabricated.

In addition, a space formed by the first member and the polyamide and the second member of the window frame and a space formed by the second member and the polyamide and the third member are filled with a polyurethane polymer (azo-core); It is characterized by comprising a polyurethane polymer (azo-core) filled in a space formed by polyamide connecting the inner member and the outer member of the window.

In addition, the lower horizontal window frame member of the window frame is formed with a coupling groove for the blocking member in the longitudinal direction, and the coupling groove for the blocking member is combined with a blocking member in close contact with the outer wall outside the window frame to increase the waterproof efficiency. Is done.

In addition, the packing member coupled to the rim of the window so as to be in contact with the window sill in the state where the window is closed is in close contact with the window sill, to improve the heat insulation properties. Arrange the pressing means corresponding to each other in the groove; The pressing means is characterized in that a plurality of applied to the upper and lower sides of the window frame and the window.

In addition, the pressing means is configured to include a wedge member fixed to the rail side of the window frame, the rail side of the window frame and the door roller assembly installed in the lower rail coupling groove of the window and the rolling roller installed in the upper rail coupling groove of the window. , The rolling roller installed in the upper rail coupling groove of the window is configured to be coupled to the roller housing that is fitted and fixed to the rail coupling groove of the window.

In addition, the wedge member is configured to have an inclined surface that gradually increases in the closing direction of the window, and is characterized in that it is configured in a two-sided triangular shape having an inclined surface that gradually increases in the opening and closing directions of the window.

In addition, a wedge coupling groove is formed in the lengthwise direction on the rail, a protrusion formed on the wedge member is coupled thereto, and the wedge fixing panel (5-1) is inserted into the wedge coupling groove on both sides of the wedge member to secure the desired through the configuration. It is characterized in that the wedge member can be provided at a position.

In addition, the vertical window member of the window further comprises a close coupling means to the members overlapping each other; As the tightly coupled means, a sliding link is installed on the window by the operation of a handle, and an operating link assembly having a function of horizontally moving the door assembly is installed; The working link assembly is provided with at least one pressure hook, and is coupled to a pressure hole formed in a rail of the window frame to provide functionality to horizontally move the window; The outdoor vertical frame constituting the window in plan view combines the outer first finishing member toward the interior, the glass window and the outer second finishing member arranged at right angles to the outer first finishing member, and also the indoor vertical frame. Combining the inner first finishing member and the inner second finishing member made of a synthetic resin as described above; Guide grooves are formed to face each other on the inner second finishing member, and locking grooves are formed in two rows at regular intervals in the guide grooves. A guide piece formed in the interior is introduced; The inner second finishing member is characterized in that a locking piece is introduced into the groove formed in the vertical frame located on the outdoor side so that the locking piece is inserted into the groove when the window is closed.

In addition, the pressing hole is configured in an inclined type, and when the handle is rotated, the working link assembly is interlocked to cross the window, and the pressing hook provided in the working link assembly moves along the inclined pressing hole to level the window. Characterized in that the movement in the direction.

In the case of using the window structure of the adhesive type insulation system provided by the present invention, since the window frame and the window provide a configuration in which the inner member and the outer member are interconnected by polyamide and polyurethane polymer (azo-core), insulation can be maximized. have.

When the window is opened, the pressing means is released to make a smooth operation, and when the window is closed, the packing member coupled to the window is in close contact with the window frame to be crushed to provide a wide cross-sectional area.

Therefore, it is possible to maximize the soundproofing, windproof, and dustproofing functionality, thereby improving insulation.

1 is a front view showing a first preferred embodiment of the window structure of the close contact type insulation system provided by the present invention
Figure 2 is a side cross-sectional view of Figure 1
Figure 3 is a cross-sectional plan view of Figure 1
Figure 4 is an exploded perspective view excerpting a state in which the roller is coupled to the door under the window among the pressing means applied to the present invention
Figure 5 is an exploded perspective view excerpting the state of the roller coupled to the upper window of the pressing means applied to the present invention
Figure 6 is a plan view showing the operating state of Figure 4
7 is a cross-sectional side view showing a second preferred embodiment of the window structure of a close contact type insulation system provided by the present invention
Figure 8 is an exploded perspective view showing a coupled state of the wedge member applied to Figure 7
9 is a front view showing a third preferred embodiment of the window structure of a close contact type insulation system provided by the present invention
Figure 10 is a perspective view showing an example of a part of the fracture so as to see the operating link operated by the handle in the third embodiment of the present invention
Figure 11 is a perspective view showing a state in which the hook provided in the operating link assembly in the third embodiment of the present invention is coupled to the rail of the window frame
12 is an operation state diagram of FIG.
13 is a cross-sectional view showing a state in which a vertical frame applied to a window in the third embodiment of the present invention overlaps, and a window is opened.
14 is a cross-sectional view showing a state in which a vertical frame applied to a window in the third embodiment of the present invention overlaps, and the window is closed.
Figure 15 is a perspective view of Figure 13
16 to 19 are cross-sectional views showing an example of a state in which the present invention is applied to a building together with a fixing window system.

Hereinafter, preferred embodiments of the window structure of the close contact type insulation system provided by the present invention will be described based on the accompanying drawings.

FIG. 1 is a front view showing a first preferred embodiment of a window structure of a close contact type insulation system provided by the present invention, FIGS. 2 and 3 are side cross-sectional views and flat cross-sectional views of FIG. 1, and FIG. 4 is Among the pressing means applied to the present invention, an exploded perspective view showing a state in which the roller is coupled to the door under the window, and FIG. 5 is an exploded perspective view excerpting a state in which the roller is coupled to the top of the window among the pressing means applied in the present invention. 6 is a plan view showing the operating state of Figure 4, respectively.

The present invention is a technique that can be commonly applied to a window system of a sliding configuration of various configurations applied to a building.

According to the illustrated window structure (1) of the close contact type insulation system provided by the present invention is made of a structure including a window frame (2) and a window (3) that slides along the rails (23) formed on the window frame (2). .

The window frame (2) is composed of a rectangular frame shape by assembling the vertical window frame member (21) and the horizontal window frame member (22), and the vertical window frame member (21) and the horizontal window frame member (22) are located on the indoor side, respectively. The first member (21a) (22a), the first member (21a) (22a) and the second member connected to the polyamide (21b) (22b) (21c) (22c), and the second member (21c) ( 22c) and a third member (21e) (22e) located on the outdoor side connected to the polyamide (21d) (22d).

A pair of rails 23 for the movement of the window 3 are coupled to the second member 21c, 22c and the third member 21e, 22e, and a partition member ( 24) is arranged to be coupled to the third member (21e) (22e). In addition, the third member (21e) (22e) is provided with an insect screen rail (25) for the installation of an insect screen, the first member (21a) (22a) has a synthetic resin composition for the window frame finishing member 26 is coupled to the interior do.

At this time, the first member (21a) (22a) and the second member (21c) (22c) connected to the polyamide (21b) (22b), the second member (21c) (22c) and the polyamide (21d) ( In the case of the third member (21e) (22e) connected to 22d) may affect the durability of the window frame (2), in the present invention, the first member (21a) (22a) and polyamide (21b) (22b) ) And the space formed by the second member 21c and 22c and the space formed by the second member 21c and 22c and the polyamide 21d and 22d and the third member 21e and 22e. The urethane polymer (azo-core) (21f) (22f) is filled to increase the durability of the window frame (2), and it is possible to maximize the insulation by blocking the transition between the external temperature and the internal temperature in double.

The rail 23 may be assembled to the second member 21c, 22c and the third member 21e, 22e or integrally formed, and the partition member 24 may be a third member 21e, 22e It can be assembled in or can be constructed in one piece. In the present invention, the rail 23 and the partition member 24 are shown prefabricated.

When configuring the window frame 2 as described above, the second member 21c, 22c is disposed between the indoor first member 21a, 22a and the outdoor third member 21e, 22e. , It is configured to block the heat transfer by the coupling portion made of two polyamides (21b) (22b) and polyurethane polymer (azo-core) (21f) (22f). have.

In addition, the lower horizontal window frame member 22 constituting the window frame 2 provided in the present invention is formed with a coupling groove 22g for the blocking member in the longitudinal direction, and a window frame 2 with the coupling groove 22g for the blocking member It is to be provided in a configuration that combines the blocking member 10 that is in close contact with the outer wall of the outside. In this case, the blocking member 10 provides a configuration that wraps the wall in an extended state from the window frame 2 as shown in FIGS. 3 and 4, so that the boundary between the window frame member and the wall is completely covered. It is possible to completely prevent the rainwater from flowing into the boundary between the window frame member and the wall, thereby improving the waterproofing efficiency to near perfection.

Although the sign is not separately indicated on the window frame 2, a drainage hole is formed to induce and discharge rainwater above the blocking member 10.

The window 3 is composed of a vertical window member 31 and a horizontal window member 32 in a rectangular frame shape, and the vertical window member 31 and the horizontal window member 32 are located on the indoor side, respectively. Connecting the inner member (31a) (32a) and the outer member (31b) (32b) located on the outdoor side with a polyamide (31c) (32c), so that the rail 23 provided on the window frame (2) is coupled The rail coupling groove 33 is formed. In addition, a door assembly 34 is installed in the lower rail engaging groove 33 of the window 3 to allow the window 3 to slide along the rail 23.

At this time, the door assembly 34 purchases a ready-made product that can be moved and restored to the left and right with a wider width than the rail 23, so that the window 3 has the functionality to move slightly perpendicular to the rail 23, that is, horizontally. To provide.

In addition, the space formed by the polyamide (31c) (32c) connecting the inner member (31a) (32a) and the outer member (31b) (32b) is filled with a polyurethane polymer (azo-core) (31d) (32d) In addition to increasing the durability of the window frame (2), it is possible to maximize heat insulation by blocking the transition between the external temperature and the internal temperature in double.

In the present invention, as described above, the window (3) further comprises a little to move in a direction perpendicular to the rail (23), the rail (23) and the door car assembly installed in the lower rail coupling groove (33) of the window It is provided with a pressing means (4) corresponding to each other in the roller housing positioned in the upper rail engaging groove (33) of the (34) and the window (3).

The pressing means (4) is installed on the upper and lower sides of the window (3), respectively, the pressing means (4) preferred installation position is the door car housing (35) and the door car assembly (34) constituting the door car assembly (34). Installed in the upper rail coupling groove (33) of the window (3) in the same position and installed in a position that can interact immediately before the window (3) is closed.

The pressing means 4 is composed of a wedge member 5 coupled to the rail 23 installed on the window frame 2 and a rolling roller 6 coupled to the window 3 side. As mentioned above, the rolling roller 6 connected to the window 3 side is located at the lower side of the window 3, and the door assembly 34 is installed, while the upper roller 3 is located at the upper side of the window 3 To be installed in the roller housing (8) fitted to the coupling groove (33).

It is natural that the rolling roller 6 installed in the door housing 35 is located below the door car, and must be installed so that a space for joining the window 3 to the window frame 2 can be secured.

The wedge member 5 has an inclined surface 51 that gradually increases in the closing direction of the window 3 and is fixed to the window frame 2 by fixing means such as pieces.

And the rolling roller 6 installed on the rail assembly groove 33 side door assembly 34 or roller housing is inserted between a pair of roller coupling pieces 7 integrally formed on the horizontal window member 32. It is configured to be fixed by a fixing pin.

On the other hand, in the case of the pressurizing means 4 provided by the present invention, the configuration is installed on the left and right and up and down sides of the window 3, but it is natural that a plurality of applications may be applied depending on the size of the window system 1. .

When a plurality of pressing means 4 are installed in the window system 1, the wedge member 5 in the shape of the wedge member 5 is close to the vertical window frame member 21 of the window frame 2 as shown in FIG. (3) is configured to have a gradually increasing inclined surface 51 in the closing direction, and the wedge member 5 installed in the middle of the horizontal window frame member 22 gradually increases in the opening direction and closing direction of the window 3 It may be configured as an isosceles triangular shape having an inclined surface 51 that increases.

In the case of using the insulated heat insulating system window structure (1) of the present invention configured as described above, when the window (3) is closed, the window (3) is pressed in the horizontal direction by the pressing means (4) to improve heat insulation. Is done.

That is, when the window (3) is closed, the rolling roller (6) of the pressing means (4) moves along the inclined surface (51) of the wedge member (5). The moving window (3) is pressed toward the opposite window (3), and the packing member (9) installed on the side edge of the window (3) is crushed while coming into contact with the side of the window frame (2) and the opposite window (3). Since the cross-sectional area is largely interviewed to increase watertightness and minimize air flow, it is possible to maximize the insulation effect.

In addition, the present invention can provide an effect that can be installed and operated at a low cost to the existing window system (1) as mentioned above, it will also help to reduce the heating and cooling costs in winter and summer.

7 is a side cross-sectional view showing a second preferred embodiment of the close-up thermal insulation system window structure provided by the present invention, Figure 8 is an exploded perspective view showing a combined state of the wedge member applied to FIG.

This is to improve the thermal insulation properties by differently configuring the horizontal window frame member 22 and the window located on the lower side of the window frame (2) in constructing the close-type thermal insulation system window structure (1) as described above.

To this end, in the present invention, the horizontal window frame member 22 has a first member 22a positioned on the indoor side, a second member 22c connected to the first member 22a and a polyamide 22b, and a second member It consists of a combination of a member 22c and a third member 22e located on the outdoor side connected by polyamide 22d.

And the upper side of the first member (22a) to the third member (22e) to form an auxiliary window frame coupling grooves to be able to combine the fixture formed under the auxiliary window frame member (27) of the synthetic resin composition. At this time, a pair of rails 23 for the movement of the window 3 is made of aluminum and coupled to the upper side of the auxiliary window frame member 27, and a partition member 24 is provided between the rails 23. It is provided integrally with the member 27.

The wedge member 5 is coupled to the rail 23. In the present invention, the wedge member 5 is configured to be simple assembled.

That is, the wedge coupling groove 23a is formed in the longitudinal direction on the rail 23, the protrusion 5a formed on the wedge member 5 is coupled thereto, and the wedge coupling groove 23a is formed on both sides of the wedge member 5. It is possible to provide the wedge member 5 at a desired position through a configuration in which the wedge fixing panel 5-1 is fitted and fixed.

In addition, the vertical window member 31 and the horizontal window member 32 constituting the window are combined with a finishing member 35 of a synthetic resin composition toward the interior to increase insulation.

9 is a front view showing a third preferred embodiment of the window structure of the close contact type insulation system provided by the present invention, and FIG. 10 is partially broken so that the working link operated by the handle can be seen in the third embodiment of the present invention. It is a perspective view showing an example.

The third embodiment of the present invention is a configuration in which the windows 3 are in close contact with each other, and in the configuration of the window frame 2 and the windows 3 as in the first embodiment, the horizontal movement to the lower side of the window 3 is possible. The door assembly 34 is installed. The door car assembly 34 may be used by selecting one of a configuration in which the door car can move horizontally in conjunction with the operation link assembly 12 that slides by the operation of the handle 11, and these door car assemblies 34 may be used in various ways. Since the configuration is provided, it is also possible to use purchased products.

The operation link assembly 12 includes a member that is slid by the operation of the handle 11 in a state embedded in the vertical window member 31 and the horizontal window member 32 of the window 3, and this slide member Is equipped with a locking hook (not shown) for the locking device is provided with a pressing hook (12a) for the present invention.

The pressure hook 12a is installed at least one place toward the vertical window member 31 and the upper and lower horizontal window members 32 of the window 3 to which the handle 11 is coupled, and the lower horizontal window member 32 The pressure hook (12a) installed in the coupling is configured to be horizontally moved by the door vehicle assembly (34), the other pressure hook (12a) is a pressure hole formed in the rail 23 of the window frame (2) ( 23b) to provide the functionality to move the window 3 horizontally.

In addition, in the present invention, the vertical window member 31 of the window 3 is made of a configuration that further comprises a close coupling means 200 to the members overlapping each other.

FIG. 11 is a perspective view showing a state in which a pressing hook 12a provided on the operation link assembly 12 in the third embodiment of the present invention is coupled to the rail 23 of the window frame 2, and FIG. 12 is It shows the operation state of FIG.

The third embodiment of the present invention is a pressing means (12a) provided on the operating link assembly 12 as a basic means to move the window (3) in the horizontal direction is formed on the rail (23) of the window frame (2) It is provided through a configuration that is coupled to the pressing hole (23b).

The pressing hook 12a is provided with at least one or more as mentioned above, and a locking portion having a larger diameter is formed at the tip.

The pressing hole 23b is formed with the engaging portion of the pressing hook 12a in the state in which the window 3 is closed, and is inclined in the pressing direction of the window 3.

In the case of such a configuration, when the operation link assembly 12 is operated by the operation of the handle 11, the pressing hook 12a slides, wherein the pressing hook 12a opens the inclined pressing hole 23b. The window 3 is moved in the horizontal direction.

13 is a cross-sectional view showing a state in which the vertical window member 31 applied to the window 3 in the third embodiment of the present invention overlaps, and shows the state in which the window 3 is opened, and FIG. 14 is the present invention. The vertical window member 31 applied to the window 3 in the third embodiment is a cross-sectional view showing the overlapping state, and the window 3 is closed, and FIG. 15 is a perspective view respectively showing an important part of FIG. 13 Did.

According to the drawing, by combining the members of the synthetic resin composition to the vertical window member 31 constituting the window 3 to provide a close coupling means 200, it is to maximize the soundproof and windproof functionality.

According to the illustrated close contact means 200 provides a state in which the vertical window member 31 constituting the window 3 is superimposed on the outdoor side and the indoor side when viewed in a plan view. At this time, the outdoor vertical window member 31 is provided. The outer first finishing member 201 is coupled to the interior, and the outer second finishing member 202 disposed at a right angle with the glass window and the outer first finishing member 201 is coupled. At this time, the outer first finishing member 201 is positioned between the vertical window members 31 of the overlapped window 3, and the outer second finishing member 202 is exposed to the outdoors.

In addition, the interior-side vertical window member 31 is also provided with an inner first finishing member 203 and an inner second finishing member 204 made of synthetic resin as described above.

At this time, the guide grooves 204a are formed to face each other on the inner second finishing member 204, and the locking grooves 204b are formed in two rows at regular intervals in the guide grooves 204a, and these guide grooves 204a Each of the guide pieces 207 formed in the vertical window member 31 is introduced. The guide piece 207 is formed with a protrusion 207a at the tip, so that it is caught in any one of the locking grooves 204b formed in two rows.

In addition, the inner second finishing member 204 has a locking piece 206 formed in the groove 205 formed in the vertical window member 31 located on the outdoor side to form a groove 205 when the window 3 is closed. ) Is configured such that the locking piece 206 is inserted.

As described above, a guide groove 204a is formed in the inner second finishing member 204 so that the guide piece 207 formed in the vertical window member 31 is fitted, and at the same time, the vertical window member located on the outdoor side ( When the locking piece 206 is configured to be caught in the groove portion 205 of 31), when the window 3 is closed, when the handle 11 is rotated as shown in FIGS. 11 and 12, the operation link assembly 12 The pressure hook (12a) provided in is in a state that is inserted into the pressure hole (23b) formed in the rail 23 of the window frame (2).

In this state, when the handle 11 is rotated, the working link assembly 12 is interlocked to cross the window 3, and the pressing hook 12a provided on the working link assembly 12 is inclined to press the inclined hole ( The window 3 is moved horizontally while moving along 23b). At this time, the locking piece 206 is inserted into the groove 205 of the outdoor vertical window member 31, and the guide piece 207 inserted into the guide groove 204a when the window 3 is pressed toward the outside. As the slide moves, the packing member 9 coupled to the vertical window member 31 of the indoor window 3 moving horizontally toward the outdoor is caught by the protrusion 207a in the locking groove 204b formed in two rows. It is to be interviewed with the outer first closing member 201 coupled to the outdoor side vertical window member 31 to provide soundproof and windproof functionality.

Further, when the packing member 9 coupled to the vertical window member 31 of the indoor window 3 is in an interview with the outer first closing member 201 coupled to the outdoor vertical window member 31 , Since the gap between them is blocked by the locking piece 206 formed on the inner second finishing member 204 coupled to the groove 205 of the outdoor vertical window member 31, the soundproof and windproof functionality can be further increased, The outer first and second finishing members 201 and 202 and the inner first and second finishing members, respectively, on the outdoor and indoor side vertical window members 31 of the aluminum configuration overlapping each other in the closed state of the window 3. Since 203) (204) is wrapped, the heat transfer can be minimized, and the heat insulating properties can also be improved.

16 to 19 are cross-sectional views showing an example of a state in which the present invention is applied to a building together with a fixing window system.

As shown in the figure, the close-closed insulation system window structure provided by the present invention can be applied to a building together with a fixing window system as well as a variety of existing window systems to maximize soundproof and windproof dustproof functionality and increase insulation. will be.

In the detailed description of the present invention, specific embodiments are described, but various modifications are possible without departing from the scope of the present invention. Therefore, the protection scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents as well as the claims below.

1: Sealed insulation system window structure 2: Window frame
21: vertical window frame member 21a, 22a: first member
21b, 22b, 21d, 22d: Polyamide 21c, 22c: Second member
21e, 22e: Third member 21f, 22f, 31d, 32d: Polyurethane polymer
22g: engaging groove for blocking member 22: horizontal window frame member
23: Rail 23a: Wedge coupling groove
23b: Pressing hole 24: Compartment member
25: screen rail 26: window frame finishing member
27: auxiliary window frame member 3: window
31: vertical window member 31a, 32a: inner member
31b, 32b: outer member 31c, 32c: polyamide
32: horizontal window member 33: rail engaging groove
34: Hocha assembly 35: Finishing member
4: Pressing means 5: Wedge member
5a: protrusion 5-1: wedge fixing panel
51: Slope 6: Rolling roller
7: Roller combination 8: Roller housing
9: Packing member 10: Blocking member
11: Handle 12: Operation link assembly
12a: Pressing hook
200: adhesive coupling means 201: outer first finishing member
202: outer second finishing member 203: inner first finishing member
204: inner second finishing member 204a: guide groove
204b: Jamming groove 205: Groove
206: Take 207: Guide
207a: protrusion

Claims (11)

In the window structure (1) of the close contact type heat insulation system configured to slide along the rail (23) formed on the window frame (2) by coupling the door to the rail coupling groove (33) formed on the window (3);
The window frame (2) is composed of a rectangular frame shape by assembling the vertical window frame member (21) and the horizontal window frame member (22), and the vertical window frame member (21) and the horizontal window frame member (22) are located on the indoor side, respectively. The first member (21a) (22a), the first member (21a) (22a) and the second member connected to the polyamide (21b) (22b) (21c) (22c), and the second member (21c) ( 22c) is made of a combination of a third member (21e) (22e) located on the outdoor side connected to the polyamide (21d) (22d);
A pair of rails 23 for movement of the window 3 are coupled to the second member 21c, 22c and the third member 21e, 22e, and a partition member ( 24) is arranged and coupled to the third member (21e) (22e), the third member (21e) (22e) is provided with an insect screen rail 25 for installing an insect screen, the first member (21a) ( 22a) the interior of the synthetic resin window frame finishing member 26 is coupled;
The window 3 is composed of a vertical window member 31 and a horizontal window member 32 in a rectangular frame shape, and the vertical window member 31 and the horizontal window member 32 are located on the indoor side, respectively. Connecting the inner member (31a) (32a) and the outer member (31b) (32b) located on the outdoor side with a polyamide (31c) (32c), so that the rail 23 provided on the window frame (2) is coupled Forming a rail coupling groove (33);
The lower rail coupling groove 33 of the window 3 is provided with a horizontally movable door assembly 34 of the door, so that the window 3 can be slid along the rail 23;
Among the vertical window member 31 of the window (3) further comprises a close coupling means 200 to the members overlapping each other;
With the close coupling means 200, the window 3 is operated by sliding by the operation of the handle 11, and a working link assembly 12 having the function of horizontally moving the door assembly 34 is installed;
The working link assembly 12 is provided with at least one pressure hook 12a, and is coupled to a pressure hole 23b formed in the rail 23 of the window frame 2 to move the window 3 horizontally. To provide functionality;
When viewed from a plane, the outer vertical window member 31 constituting the window 3 is coupled to the outer first finishing member 201 toward the interior, and the outer side disposed at right angles to the glass window and the outer first finishing member 201 The second finishing member 202 is combined, and the inner first finishing member 203 and the inner second finishing member 204 made of synthetic resin are also coupled to the indoor vertical window member 31;
In the inner second finishing member 204, guide grooves 204a are formed to face each other, and in the guide grooves 204a, locking grooves 204b are formed in two rows at regular intervals, and these guide grooves 204a In the interior side of the vertical window member 31, the guide piece 207 is formed with a projection 207a at the tip so as to be engaged with the locking groove 204b;
The inner second finishing member 204 is formed with a locking piece 206 inserted into the groove 205 formed in the vertical window member 31 located on the outdoor side, so that the groove 205 when the window 3 is closed A close contact type insulation system window structure, characterized in that the locking piece 206 is configured to be introduced.
In the window structure (1) of the close contact type heat insulation system configured to slide along the rail (23) formed on the window frame (2) by coupling the door to the rail coupling groove (33) formed on the window (3);
The window frame (2) is composed of a rectangular frame shape by assembling the vertical window frame member (21) and the horizontal window frame member (22), and the vertical window frame member (21) and the horizontal window frame member (22) are located on the indoor side, respectively. The first member (21a) (22a), the first member (21a) (22a) and the second member connected to the polyamide (21b) (22b) (21c) (22c), and the second member (21c) ( 22c) is made of a combination of a third member (21e) (22e) located on the outdoor side connected to the polyamide (21d) (22d);
The upper side of the first member 22a and the third member 22e located at the lower side are combined with an auxiliary window frame member 27 having a synthetic resin structure, and an upper side of the auxiliary window frame member 27 is provided with a window 3 A pair of rails 23 for movement are made of aluminum and combined, and between these rails 23, a partition member 24 is provided integrally with the auxiliary window frame member 27, and the third member 21e (22e) is provided with an insect screen rail 25 for installing an insect screen, and the first member 21a, 22a combines a finishing member 26 for a window frame of a synthetic resin configuration toward the interior;
The window 3 is composed of a vertical window member 31 and a horizontal window member 32 in a rectangular frame shape, and the vertical window member 31 and the horizontal window member 32 are located on the indoor side, respectively. Connecting the inner member (31a) (32a) and the outer member (31b) (32b) located on the outdoor side with a polyamide (31c) (32c), so that the rail 23 provided on the window frame (2) is coupled Forming a rail coupling groove (33);
The lower rail coupling groove 33 of the window 3 is provided with a horizontally movable door assembly 34 of the door, so that the window 3 can be slid along the rail 23;
Among the vertical window member 31 of the window (3) further comprises a close coupling means 200 to the members overlapping each other;
With the close coupling means 200, the window 3 is operated by sliding by the operation of the handle 11, and a working link assembly 12 having the function of horizontally moving the door assembly 34 is installed;
The working link assembly 12 is provided with at least one pressure hook 12a, and is coupled to a pressure hole 23b formed in the rail 23 of the window frame 2 to move the window 3 horizontally. To provide functionality;
When viewed from a plane, the outer vertical window member 31 constituting the window 3 is coupled to the outer first finishing member 201 toward the interior, and the outer side disposed at right angles to the glass window and the outer first finishing member 201 The second finishing member 202 is combined, and the inner first finishing member 203 and the inner second finishing member 204 made of synthetic resin are also coupled to the indoor vertical window member 31;
In the inner second finishing member 204, guide grooves 204a are formed to face each other, and in the guide grooves 204a, locking grooves 204b are formed in two rows at regular intervals, and these guide grooves 204a In the interior side of the vertical window member 31, the guide piece 207 is formed with a projection 207a at the tip so as to be engaged with the locking groove 204b;
The inner second finishing member 204 is formed with a locking piece 206 inserted into the groove 205 formed in the vertical window member 31 located on the outdoor side, so that the groove 205 when the window 3 is closed A close contact type insulation system window structure, characterized in that the locking piece 206 is configured to be introduced.
The method according to claim 1;
The rail 23 is prefabricated to the second member 21c, 22c and the third member 21e, 22e, and the partition member 24 is prefabricated to the third member 21e, 22e. Window structure of a close contact type insulation system, characterized in that.
The method according to claim 1 or 2;
The space formed by the first member 21a, 22a, polyamide 21b, 22b and second member 21c, 22c of the window frame 2 and the second member 21c, 22c and poly A space formed by the amide (21d) (22d) and the third member (21e) (22e) is filled with polyurethane polymer (21f) (22f);
The space formed by the polyamide (31c) (32c) connecting the inner member (31a) (32a) and the outer member (31b) (32b) of the window (3) is filled with polyurethane polymer (31d) 932d) Window structure of a close contact type insulation system, characterized in that.
The method according to claim 1 or 2;
The lower horizontal window frame member 22 of the window frame 2 is formed with a coupling groove 22g for a blocking member in the longitudinal direction, and a coupling groove 22g for a blocking member is in close contact with the outer wall surface outside the window frame 3 Close-type insulation system window structure, characterized in that to increase the waterproof efficiency by combining the ┏-type blocking member (10).
The method according to claim 1 or 2;
The packing member 9 coupled to the rim of the window 3 to interview the window frame 2 in a state where the window 3 is closed is in close contact with the window frame 2 to improve heat insulation, so that the rail 23 of the window frame 2 is improved. ) A pressing means 4 corresponding to each other is provided in the door assembly 34 installed in the side and the lower rail engaging groove 33 of the window 3 and the upper rail engaging groove 33 of the window 3;
The pressing means (4) is a close-up insulation system window and window structure, characterized in that a plurality of applied to the upper and lower sides of the window frame (2) and the window (3).
The method according to claim 6;
The pressing means (4), the wedge member (5) fixed to the side of the rail (23) of the window frame (2), and the door assembly (34) and the window (34) installed in the lower rail coupling groove (33) of the window (3) 3) includes a rolling roller (6) installed in the upper rail coupling groove (33);
The rolling roller 6 installed in the upper rail engaging groove 33 of the window 3 is configured to be coupled to the roller housing 8 which is fitted and fixed to the rail engaging groove 33 of the window 3. Close-type insulation system window structure.
The method according to claim 7;
The wedge member 5 is configured to have an inclined surface 51 gradually increasing in the closing direction of the window 3, or a second equilateral side having an inclined surface 51 gradually increasing in the opening direction and closing direction of the window 3 Close-type insulation system window structure, characterized by having a triangular shape.
The method according to claim 7;
A wedge engaging groove (23a) is formed in the rail in the longitudinal direction, thereby engaging the protrusions (5a) formed in the wedge member (5), and the wedge fixing panel (23a) in the wedge engaging groove (23a) on both sides of the wedge member (5) (5-1) A closed-type insulation system window structure, characterized in that the wedge member (5) can be provided at a desired position through a fixed configuration.
delete The method according to claim 1 or 2;
The pressing hole (23b) is configured in an inclined type, and when the handle (11) is rotated, the working link assembly (12) crosses the window (3) while interlocking, and the pressing hook provided on the working link assembly (12) Window structure of a close contact type insulation system, characterized in that (12a) moves the window 3 in a horizontal direction while moving along the inclined pressing hole 23b.

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