KR101045292B1 - Installation structure of insulating gasket provided in sliding window - Google Patents

Abstract

The installation structure of the insulating gasket according to the present invention can block the heat transfer between the indoor and outdoor through the first support member installed perpendicular to the frame to support the frame of the US window.

US Window and Insulation Gasket

Description

Installation structure of insulating gasket provided in sliding window}

The present invention relates to an installation structure of a heat insulating gasket, and more particularly, to prevent heat transfer between indoor and outdoor through a first support member vertically installed on a frame to support a frame of a US window. The installation structure of the gasket.

In general, an unclear window means a window that is opened and closed by sliding a window frame. The small window includes a rectangular frame, a rail installed in the frame, and a window frame sliding along the rail.

On the other hand, these US windows have been recently constructed in high-rise buildings. As shown in FIG. 1, the unglazed windows 10 installed in a high-rise building include a rectangular frame 11 and 12, a horizontal member 13 installed horizontally on the frames 11 and 12, and a horizontal member 13. Rail platform 15 installed on the rail) and a rail installed on the rail platform 15. The frames 11 and 12 consist of a vertical frame 11 and a horizontal frame 12.

A fixed window frame 16 is installed below the horizontal member 13, and a slidable window frame 17 is installed above the horizontal member 13. That is, the window frame 17 provided on the horizontal member 13 slides along the rail and opens and closes the window.

However, a strong wind is blown on the high-rise portion of the building, the small window 10 has a problem that the vertical frame 11 can be bent well by the strong wind. That is, as shown in Figure 2, the vertical frame 11 may be bent into the building by the strong wind blowing from the outside of the building. In FIG. 2, the arrow indicates the wind blowing from the outside of the building, and the dotted line indicates the vertical frame 11 bent by the wind.

In order to solve the problem described in the background art, the present applicant has developed a new US window and window reinforced with the frame by installing the first and second support members. The first support member is installed vertically on the frame and the second support member is installed horizontally on the frame. These unknown windows will be filed simultaneously with the present application separately from the present application. The unknown window will be described below.

It is an object of the present invention to provide an installation structure of a heat insulating gasket which can block heat transfer between indoors and outdoors through such a first support member. That is, the present invention is a space between the indoor and the outdoor through the gap (G in Fig. 5) between the glass 25, 27 provided on the left side of the first support member 30 and the glass 26, 28 provided on the right side. It is an object of the present invention to provide an installation structure of a heat insulating gasket having a cover member 60 covering the gap G so as to prevent heat transfer from occurring.

In order to achieve the above object, the installation structure of the insulating gasket according to the present invention includes: a first support member installed to cross the frame to support the frame and having a predetermined width W and a height H; It includes a cover member provided on the side of the first support member, the glass is installed on both left and right sides of the first support member, one of the left and right glass is installed on the first support member of the indoor side and the other one of the outdoor 1 is installed on the support member, the gap (G) is present between the left and right glass, and the cover member is installed on the outer side of the building of the first support member to correspond to the gap in order to block heat transfer between the indoor and outdoor The cover member is connected to the first support member by a heat insulating gasket made of a heat insulating material.

Preferably, an insert portion into which the insulating gasket can be inserted is formed along the length direction of the first support member on the outer side of the building of the first support member, and a protrusion that can be inserted into the insert portion has a length direction in the cover member. It is formed along the front end of the protrusion is provided with the insulating gasket close to the insulating gasket is inserted into the insertion portion is blocked from the transfer of external heat to the room and at the same time the cover member is fixed to the first support member.

Here, the frame is composed of a pair of horizontal members facing each other and a pair of vertical members facing each other, the first support member is vertically installed on the frame to connect a pair of horizontal members to each other The second support member is horizontally installed on the frame so as to connect the pair of vertical members to each other, the second support member is installed to connect the pair of vertical members, the second inner support portion is installed on the upper surface is a rail for moving the window frame ; And a second outer support portion coupled to the outer surface of the building of the second inner support portion and extending from one of the pair of vertical members to the first support member, wherein the first support member is formed from the horizontal member below. A first inner support part extending to the second inner support part to support the second inner support part; And a first outer support portion coupled to the building outer surface of the first inner support portion and installed to connect a pair of horizontal members to each other and contacting the second inner support portion to be supported by the second inner support portion.

Preferably, the first outer support portion, the body is connected to the first inner support portion and the insertion portion formed side; Is formed extending to the main body is connected to the main body only by a heat insulating member, the outer portion to form a groove for fixing the glass; including one end of the cover member is fastened to the outer side and the insulating gasket is inserted into the insert member cover member Is coupled to the first support member, the heat transfer between the outside of the building and the body is blocked by the heat insulating member and the heat insulating gasket.

Preferably, the insertion portion is formed in the 'b' shape on the outer side of the building of the first support member and the protrusion is formed in the cover member in the 'b' shape that can be inserted into the insertion portion, the heat insulation at the tip of the protrusion The gasket may be installed so that the insulating gasket slides into the insertion part to be inserted in close contact.

Preferably, a porous member is installed between the first inner support part and the first outer support part to discharge the rainwater collected in the second support member to the outside, and the porous member is formed to extend to the upper surface of the lower horizontal member. The rainwater moved up to the upper surface is moved to the outside by riding the upper surface in the space between the outer side of the building and the cover member of the first support member, the insert and the protrusion and the insulating gasket for the movement of the rainwater is It is not formed from the upper surface to a predetermined height.

In addition, the insulating gasket is provided along the protrusion, it is preferable that the insertion hole that can be inserted into the protrusion gasket is formed along the longitudinal direction of the insulating gasket.

The installation structure of the insulating gasket according to the present invention can block the heat transfer between the indoor and outdoor through the first support member. That is, the present invention is a space between the indoor and the outdoor through the gap (G in Fig. 5) between the glass 25, 27 provided on the left side of the first support member 30 and the glass 26, 28 provided on the right side. It can block heat transfer from happening.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely examples of the present invention and are not intended to represent all of the technical ideas of the present invention, so that various equivalents And variations are possible.

FIG. 3 is a front view showing a US-shaped window and window in which an installation structure of a heat insulating gasket according to a preferred embodiment of the present invention is employed, and FIG. 4 is a perspective view showing a first support member and a second support member provided in the US window. .

As described above, the Applicant has an aerodynamic reinforcement by the first and second support members 30 and 40 to solve the problem that the vertical frame 11 is bent into the building by the strong wind blowing from the outside of the building. Window 100 has been developed. The first support member 30 is installed perpendicular to the frame 20 and the second support member 40 is installed horizontally on the frame 20. Glass 25, 26, 27, 28 are provided at predetermined intervals G on both left and right sides of the first support member 30. According to the present invention, heat is transferred between indoor and outdoor through a gap (G in FIG. 5) between the glass 25 and 27 provided on the left side of the first support member 30 and the glass 26 and 28 installed on the right side. It relates to an installation structure of the insulating gasket, which can prevent the occurrence. The glass 25, 27 installed on the left side is glass fixed to the frame 20, and the lower glass 26 of the glass 26, 28 provided on the right side is fixed on the frame 20 and installed on the upper side. The glass 28 is installed in the slidable window frame 28a.

Since the installation structure of the insulating gasket is adopted in the US window 100, the present invention will be described below with reference to the US window 100.

Referring to the drawings, the US window 100 is a frame 20, the first and second support members 30 and 40 are installed on the frame 20 to prevent the frame 20 from being deformed, and The cover member 60 is installed on the first support member 30 to block heat transfer through the first support member 30.

The frame 20 is formed by assembling the horizontal member 21 and the vertical member 23 to form a quadrangle. The horizontal member 21 is installed so that the pair face each other, the vertical member 23 is installed so that the pair face each other.

The frame 20 is divided into four zones by the first and second support members 30 and 40, and fixed glass 25 and 26 are installed in the two lower zones and the left side of the two upper zones. The fixed glass 27 is installed, and on the right side, a slidable window frame 28a is installed.

The first support member 30 is vertically installed on the frame 20 to connect the pair of horizontal members 21 to each other. Preferably, the first support member 30 is installed vertically.

The first support member 30 includes a first inner support part 31, a first outer support part 32, and a porous member 39 provided in the longitudinal direction. The first inner support part 31 and the first outer support part 32 may be coupled to each other by a fastening member (not shown) such as a screw.

The first support member 30 should have a strength, a supporting force, and a size capable of supporting the frame 20 even in a wind blowing from a high rise part of a building. In FIG. 5, W represents the width of the first support member 30, and H represents the vertical width of the first support member 30.

The first inner support part 31 is installed to extend from the lower horizontal member 21 to the second inner support part 41 to support the second inner support part 41. The fixed window frame 26 is fixed to the first inner support part 31.

The first outer support part 32 is coupled to the building outer surface of the first inner support part 31, and is installed to connect the pair of horizontal members 21 to each other. The glass 25, 27 is fixed to the building outer portion of the first outer support 32.

Preferably, the first outer support part 32 includes a main body 33 connected to the first inner support part 31, and an outer part 34 formed to extend to the main body 33.

The insertion part 37 is formed along the longitudinal direction of the main body 33 at the side surface of the main body 33. Preferably, the insertion portion 37 has a '-' shape. Insulation gasket 61 is inserted into the insertion portion 37. The insulating gasket 61 is described below.

The outer portion 34 forms a groove 34a for fixing the glass 25, 26. Glass fixing members 36 for fixing the glass 25 and 27 are installed at both sides of the groove 34a, and the glass fixing members 36 are made of a material having excellent heat insulating properties.

The outer part 34 is connected to the main body 33 only by the heat insulating member 35. The first support member 30, that is, the first outer support part 32 and the first inner support part 31 are made of a material having high thermal conductivity, such as aluminum, and the outer part 34 and the main body 33 are separated from each other by the heat insulating member 35. By using only) to block the heat transfer between the outer portion 34 and the main body 33. After injecting the heat insulating material in a liquid state into the space 35a connecting the outer portion 34 and the main body 33, and when the heat insulating material is hardened, the hatched portion 35b is cut out and the main body only by the heat insulating member 35. The 33 and the outer portion 34 are connected to each other. Structural high-strength polyurethane may be used as the heat insulating member 35, and SU 301, 311, 315, and 207 (product of Azone Korea) may be used.

Preferably, an end of the second outer support part 46 is installed to be connected to the first outer support part 32, and an upper end of the first inner support part 31 is installed to support the second inner support part 41. The first outer support part 32 is provided in contact with the second inner support part 41.

The first outer support part 32 is installed outside the building and the second inner support part 41 is installed inside the building, but the first outer support part 32 is installed to be in contact with the second inner support part 41 and the first outer part. When the support part 32 is supported by the second inner support part 41, it is possible to minimize the bending of the vertical member 23 into the building by the outside wind. That is, when the second support member 40 is installed inside the building and the first support member 30 is installed outside the building, the first support member 30 is installed to be supported by the second support member 40. The bending of the member 23 into the building by external wind can be minimized.

The second support member 40 is horizontally installed on the frame 20 to connect the pair of vertical members 23 to each other. Preferably, the second support member 40 is installed horizontally. The second support member 40 not only supports both vertical members 23, but also supports the first support member 30, thereby preventing the first support member 30 from bending inside the building. This has been described above.

The second support member 40 should have a strength, rigidity and size capable of supporting the frame 20 even in the wind blowing from the high-rise part of the building.

Preferably, the second support member 40 includes a second inner support portion 41 and a second outer support portion 46.

The second inner support part 41 is installed to connect the pair of vertical members 23.

As shown in Fig. 4 and 6, the upper groove of the second inner support portion 41, the rail groove line 42 for installing the rail 42a, and the inner gutter 43 for discharging rainwater, etc. to the outside. Is formed.

The groove line 42 is provided with a rail 42a for sliding the window frame 28a. The groove line 42 is formed integrally with the second inner support part 41. As such, since the rail groove line 42 is integrally formed in the second inner support part 41, a rail platform (15 in FIG. 1) for installing the rail 42a may not be separately provided. That is, the conventional US window 10 is provided with a rail platform 15 on the horizontal member 13 and a rail on the rail platform 15, the second inner support portion 41 of the present invention is integrally formed rail Since the groove line 42 is provided, it is not necessary to provide a separate rail platform 15. Therefore, the secretary window 100 of the present invention requires a simple manufacturing process and a small manufacturing cost.

On the other hand, the rail 42a may be integrally formed on the upper surface of the second inner support part 41 instead of the rail 42a being inserted into the rail recess line 42. In this case, not only the rail platform (15 of FIG. 1) is required, but also the rail recess 42 for the rail is not required, thereby simplifying the manufacturing process and further reducing the manufacturing cost.

The inner gutter 43 is for discharging rainwater or the like to the outside of the building. As shown in FIGS. 6 to 8, the inner gutter 43 is a recess line formed in the building outward direction of the rail 42a along the rail 42a. The inner gutter 43 is partitioned from the outer gutter 47 by the partition 43a. Meanwhile, arrows in FIG. 7 and FIG. 8 indicate a path through which water moves in the inner and outer gutters 43 and 47.

Water collected in the inner gutter 43 is moved to the outer gutter 47 through a weep hole 43c formed in the partition 43a, and then falls to the porous member 39, or the communicating portion 43b is removed. After being discharged through, it falls into the porous member 39. A whip hole 43c is formed through a portion of the partition 43a. The communication part 43b is formed by cutting a part of the partition 43a, and is formed at a position close to the point where the first supporting member 30 and the second supporting member 40 meet.

Preferably, the water blocking block 49 is provided in the communicating portion 43b. The water blocking block 49 is provided on one side of the communication portion 43b so as not to completely block the communication portion 43b. Therefore, the water collected in one of the inner gutters 43 around the water blocking block 49 may be smoothly discharged through the communication part 43b because the water blocking is blocked from moving to the opposite side by the block 49.

The second outer support 46 is coupled to the building outer surface of the second inner support 41. The second outer support part 46 is provided with a recess 48 for installing the fixed glass 25, 27.

The combination of the second outer support portion 46 and the second inner support portion 41 may be made by a fastening member 44 such as a bolt.

The second outer support portion 46 extends from any one of the pair of vertical members 23 to the first outer support portion 32. Accordingly, when the end of the second outer support part 46 and the first outer support part 32 are coupled by a bolt or the like, the first outer support part 32 may be prevented from being deformed in the lateral direction.

The second outer support portion 46 is formed with an outer gutter 47 for discharging rainwater or the like to the outside. The outer gutter 47 is partitioned from the inner gutter 43 by the partition 43a. The outer gutter 47 is a recess line formed to discharge water collected in the second outer support part 46 to the outside.

Rainwater that penetrates into the upper surface of the second support member 40 is collected into the inner gutter 43 and the outer gutter 47 and then falls into the porous member 39. The porous member 39 is installed perpendicular to the first support member 30, because a plurality of voids are formed, rainwater may flow down. Drainage through the porous member 39 is further described below.

5 and 9, the cover member 60 is provided along the longitudinal direction of the first outer support part 32 on the building outer side of the first outer support part 32. That is, the cover member 60 is installed on the outer side of the building of the first outer support portion 32 from the upper horizontal member 21 to the lower horizontal member 21.

Cover member 60 blocks the heat transfer between the indoor and outdoor by covering the outer side of the building of the first outer support (32). That is, it is installed so as to correspond to the gap (G) of the glass installed on the left and right sides of the first support member 30 to block heat transfer between the outdoor and the indoor.

The cover member 60 is provided with a protrusion 62 along the longitudinal direction of the cover member 60, and an insulating gasket 61 is installed at the tip of the protrusion 62. The protrusion 62 is formed to be inserted into the insert 37. The insulating gasket 61 is preferably made of a heat insulating material, for example, rubber, which can be inserted into the insert 37 to be in close contact with the insert 37. Therefore, not only the heat transfer between the indoor and outdoor is blocked by the insulating gasket 61, but also the space between the protrusion 62 and the insertion part 37 is sealed by the insulating gasket 61. Air movement is also blocked.

Preferably, an insertion hole 61a into which the protrusion 62 is inserted is inserted into the insulation gasket 61 along the longitudinal direction of the insulation gasket 61. By inserting the tip of the protrusion 62 into the insertion hole 61a, the insulating gasket 61 is installed in the protrusion 62.

One end of the cover member 60 is coupled to the outer side 34 by the fastening member 65. As such, the lid member 60 and the outer portion 34 are connected to each other by the fastening member 65 to prevent the main body 33 from being exposed to the outside of the building, and the outer portion 34 is the main body only by the heat insulating member 35. It is connected to (33) and the cover member 60 is connected to the main body 33 by a heat insulating gasket 61, the heat transfer between the outside of the building and the interior is blocked. The temperature distribution due to this thermal cut is shown in FIG. The main body 33 has almost the same temperature as the room because the heat transfer between the room and the outside is blocked by the heat insulating gasket 61 and the heat insulating member 35.

Preferably, since the protrusion 62 has a 'b' shape and the insert 37 has a 'a' shape, the protrusion 62 may be inserted into the insert 37 by sliding. That is, the cover member 60 is slid to allow the insulating gasket 61 to be inserted into the insertion part 37, and then the cover member 60 and the outer part 34 are coupled by using the fastening member 65. As such, the present invention has the advantage that the coupling of the lid member 60 and the main body 33 and the coupling of the lid member 60 and the outer portion 34 can be easily and easily.

Meanwhile, as shown in FIG. 9, the lower end of the protrusion 62 and the lower end of the insertion part 37 are positioned at a predetermined height, for example, about 10 cm above the lower end of the first outer support part 32. This is to allow rainwater to move through the space between the lid member 60 and the main body 33.

The lower end of the cover member 60 is in contact with the lower horizontal member 21, the space between the cover member 60 and the first outer support portion 32 in the contact portion serves as an excellent movement passage. This point is further explained below.

The porous member 39 is provided at a position corresponding to the communication part 43b, as shown in FIG. 5, FIG. 8, and FIG. Thus, the rainwater moved through the inner gutter 43 and / or the outer gutter 47 is moved down after falling on the porous member 39. Since the porous member 39 includes a plurality of voids therein, the rainwater may be slowly moved downward. Meanwhile, the dotted arrows in Fig. 9 indicate the movement path of the rainwater.

An open cell sponge may be used as the porous member 39. Since the open cell sponge is a conventional sponge that can be easily purchased on the market, a description thereof will be omitted.

The porous member 39 is installed such that its lower end contacts the upper surface of the horizontal member 21. Thus, the rainwater moved down by the porous member 39 moves along the upper surface of the center portion 21a of the horizontal member 21, along the space formed between the cover member 60 and the first outer support portion 32. Move.

Subsequently, the rainwater moves to the inner hollow 21c of the front portion 21b by riding on the porous member 29 provided on the front portion 21b of the horizontal member 21, and to the inner hollow 21c. The moved rainwater is discharged out of the building through the discharge hole 21d formed in the front portion 21b. On the other hand, the porous member 29 is a member installed in the front portion 21b to connect the space between the lid member 60 and the first outer support portion 32 to the inner hollow 21c. Therefore, the rainwater moved through the space between the cover member 60 and the first outer support part 32 is introduced into the inner hollow 21c through the porous member 29. The porous member 29 may be an open cell sponge. Unexplained reference numeral 21e denotes silicon sealing a gap between the first outer support part 32 and the center part 21a.

1 is a front view showing the US window according to the prior art.

2 is a side view of FIG. 1;

Figure 3 is a front view showing the US Secretary window employing the installation structure of the insulating gasket according to a preferred embodiment of the present invention.

Figure 4 is a perspective view showing a first support member and a second support member provided in the unknown window of Figure 3;

5 is a cross-sectional view taken along line VV ′ of FIG. 3.

6 is a cross-sectional view showing a second support member provided in the unknown window of FIG.

7 is a plan view showing that water is discharged through the inner gutter and the outer gutter of the second support member provided in the US window of FIG.

8 is a cross-sectional view showing that rainwater is discharged through the inner gutter and outer gutter and the porous member provided in the unknown window of FIG.

9 is a perspective view showing that the porous member provided in the unknown window of FIG. 3 is installed in the first support member.

10 shows a temperature distribution in the diagram of FIG. 5.

<Explanation of symbols for main parts of the drawings>

20: frame 30: first support member

40: second support member 60: cover member

100: American window

Claims (7)

The first support member installed to cross the frame to support the frame has a predetermined width W and height H, Glass is installed on both left and right sides of the first support member, one of the glass on the left and right sides is installed on the first support member on the indoor side, and the other is installed on the first support member on the outdoor side, so that the gap between the glass on the left and right sides ( G) will exist, In order to block heat transfer between indoors and outdoors, a cover member covering the gap is installed on the outer side of the building of the first support member. The cover member is connected to the first support member by a heat insulating gasket made of a heat insulating material, the installation structure of the heat insulating gasket provided in the US window. The method of claim 1, On the outer side of the building of the first support member, an insertion portion into which the insulating gasket can be inserted is formed along the longitudinal direction of the first support member, The cover member is formed along the length direction of the protrusion that can be inserted into the insertion portion, The insulating door gasket is installed at the tip of the protruding portion, and the heat insulating gasket is closely inserted into the insertion part, thereby preventing external heat from being transferred to the room, and at the same time, the cover member is fixed to the first support member. Installation structure of the insulation gasket provided in. The method according to claim 1 or 2, The frame is composed of a pair of horizontal members facing each other and a pair of vertical members facing each other, In the frame, The first support member is vertically installed on the frame to connect a pair of horizontal members to each other, and the second support member is horizontally installed on the frame to connect a pair of vertical members to each other. The second support member, A second inner support part installed to connect a pair of vertical members, and an upper surface of which a rail for moving the window frame is installed; And And a second outer support portion coupled to the building outer surface of the second inner support portion and extending from one of the pair of vertical members to the first support member. The first support member, A first inner support part extending from the lower horizontal member to the second inner support part to support the second inner support part; And A first outer support portion coupled to the building outer surface of the first inner support portion and installed to connect a pair of horizontal members to each other, the first outer support portion being in contact with the second inner support portion to be supported by the second inner support portion; , Installation structure of insulating gaskets provided in the US windows. The method of claim 3, The first outer support part, A main body connected to a first inner support part and having an insertion part at a side thereof; Is formed extending to the main body is connected to the main body only by the heat insulating member, the outer portion forming a groove for fixing the glass; includes; One end of the cover member is fastened to the outer side and the insulating gasket is inserted into the insert portion is coupled to the cover member to the first support member, the heat transfer between the building exterior and the body is blocked by the insulating member and the insulating gasket. The installation structure of the heat insulation gasket provided in the US window. The method of claim 2, The insertion portion is formed in a 'b' shape on the outer side of the building of the first support member, the protrusion is formed in the cover member in a 'b' shape that can be inserted into the insertion portion, the insulating gasket is installed at the tip of the protrusion The insulating gasket is characterized in that the sliding portion can be inserted in close contact, the installation structure of the insulating gasket provided in the US window. The method of claim 3, Between the first inner support portion and the first outer support portion is provided with a porous member for discharging the rainwater collected in the second support member to the outside, the porous member is formed extending to the upper surface of the lower horizontal member, The rainwater moved to the upper surface by the porous member is moved to the outside by riding the upper surface in the space between the outer side of the building and the cover member of the first support member, the insert and the protrusion and the insulating gasket for the movement of the rainwater Is not formed up to a predetermined height from the upper surface, the installation structure of the insulating gasket provided in the door window. The method of claim 2, The insulating gasket is installed along the protrusion, and the insertion hole into which the protrusion is inserted and inserted into the insulating gasket is formed along the longitudinal direction of the insulating gasket.

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