KR200442365Y1 - Double insulation window frame - Google Patents

Abstract

The present invention relates to a double insulating window frame to block the inner middle of the heat insulating member formed in the window frame member to improve the heat insulating performance.

The object of the present invention is to provide a double insulating window frame to block the air flow of the space without blocking the expansion and deformation caused by stress or construction error of the window frame by blocking between a plurality of blocking walls formed in the space portion of the heat insulating member. There is this.

The present invention is a heat insulating member is formed between the outdoor window frame member and the indoor window frame member, a plurality of blocking is formed inside the heat insulating member in the known window frame fixed to the building wall, It is characterized in that one side is to be in close contact with each other.

In addition, the present invention is characterized in that the end of the blocking wall is to be pressed in close contact with one side of the inner surface of the heat insulating member.

In addition, the heat insulating member is extruded from a polyamide resin, and the barrier wall is extruded from a TPE material, and the heat extruded polyamide resin is double-extruded from the time point at which the extruded polyamide resin is 150 ° C to 210 ° C. It is characterized in that the unity.

Accordingly, the present invention does not interfere with the expansion and contraction of the window frame, and because the air flow is blocked in the space portion of the heat insulating member, there is a useful effect that the heat insulation performance is greatly improved because the air temperature of the room is not leaked to the outside.

Windows, window frames, insulation, soft gaskets

Description

Double insulation window frame

The present invention relates to a double insulated window frame, and more particularly to a double insulated window frame to block the inner middle of the heat insulating member formed in the window frame member to improve the heat insulating performance.

As is well known, the double insulated window frame is to form a heat insulating member in the middle of the window frame member in order to improve the heat insulating property of the window frame, so that a space portion is provided inside the heat insulating member. 1 is shown.

According to this, a window frame 100 having a heat insulating member 103 made of polyamide resin is formed between the indoor window frame member 101 and the outdoor window frame member 102 to be fixed to the wall, and the glass 108 The window frame frame 104 is installed is coupled to the window frame 100, the window 108 is configured, the window frame frame 104 is the indoor window frame member 105 and the outdoor window frame member ( 106 is provided, and the glass 107 is provided between the seal inner window frame member 105 and the outdoor window frame member 106.

In the window frame 100, the indoor side window frame member 101 and the outdoor side window frame member 102 are separated by the heat insulating member 103, and the space portion A formed inside the heat insulating member 103. ), The heat of the indoor side is prevented from being lost to the outdoor side, so that it is insulated.

However, when there is a difference in temperature between the indoor side and the outdoor side, a temperature difference between the air adjacent to the indoor side and the air adjacent to the outdoor side is generated among the air layers in the space portion A of the heat insulating member 103. In section A, hot air is moved to the cold air side and cold air is moved to the hot air side.

Therefore, there is a problem that the indoor air temperature is leaked to the outdoor by the air flow, the heat insulating member 103 has a problem that does not block the outflow of the temperature itself, but only delay the outflow of the indoor temperature.

Due to this problem, as illustrated in FIG. 2, a plurality of blocking walls 109 are formed in the internal space A of the heat insulating material 103 at regular intervals, thereby improving air flow in the space A. FIG. Blocking technology has been proposed.

However, the heat insulator 103 blocks the indoor side and the outdoor side to maintain insulation by twisting the window frame 100 due to the stress or construction error of the window frame 100 or the wall when the window 108 is installed. Since it is necessary to flexibly cope with the phenomenon, a certain interval must be provided when the blocking wall 109 is formed. Accordingly, the end portion of the blocking wall 109 and the space A of the heat insulating member 103 are inward. Since it is not possible to completely block the outside and the outside, and to form a gap between the end of the blocking wall 109 and the inner surface of the heat insulating member 103, air flows between the blocking wall 109 to improve the thermal insulation performance. There is a problem that is degraded.

In addition, a technique of filling a member of the honeycomb structure in the space portion A has been proposed to block the air flow in the space portion A. In this case, the window due to the stress of the window frame 100 or the wall, construction errors, etc. There is a problem in that it does not flexibly correspond to the twisting phenomenon of the frame 100, there is a problem such as an increase in the weight and manufacturing cost of the product.

The present invention is to close the plurality of blocking walls formed in the space portion of the heat insulating member to solve the conventional problems as described above do not hinder the expansion of the window frame and prevents the double insulation window frame to block the air flow of the space The purpose is to provide.

The present invention is a well-known window frame is coupled to the heat insulating member arranged up and down between the outdoor window frame member and the indoor window frame member, the barrier wall is formed inside the heat insulating member, respectively, fixed to the building wall, The two blocking wall ends inside the heat insulating member are pressed against each other to maintain the closed state between the blocking walls.

In addition, the present invention is characterized in that the end of the blocking wall is to be pressed in close contact with one side of the inner surface of the heat insulating member.

In addition, the heat insulating member is extruded from a polyamide resin, and the barrier wall is extruded from a thermoplastic elastomer (hereinafter referred to as 'TPE material'), and the extruded polyamide resin is at a point of 150 to 210 ° C. Double extrusion molding of TPE material is characterized in that the insulating member and the elastic barrier of the other material is integrated.

Thus, the present invention is to form a plurality of barrier walls made of a soft TPE material inside the heat insulating member of the window frame, even if the distortion occurs in the window frame due to stress or construction error of the window frame or wall Correspondingly stretched by the material properties of the maintaining the closed state between the blocking walls, thereby maintaining the air flow blocking function of the space portion can be maintained high thermal insulation performance. In addition, the present invention can maintain the thermal insulation performance only by a lightweight barrier wall without using a filler such as honeycomb, thereby reducing the weight of the product, improving the productivity by shortening the manufacturing process of the product, manufacturing cost There is a useful effect such as to be able to save.

When described in detail with reference to the accompanying drawings, preferred embodiments of the present invention as described above.

3 is an explanatory view showing a double insulation window frame according to the present invention, Figure 4 is an explanatory view showing an enlarged main part of the double insulation window frame according to the present invention.

The present invention is to form a heat insulating member 13 between the outdoor window frame member 11 and the indoor window frame member 12, the soft TPE in the space (A) that is the interior of the heat insulating member 13 ( The window frame 10 is formed by forming a plurality of barrier walls 14 and 14 'made of a thermal plastic elastomer.

At this time, the blocking wall 14 is integral with the inner surface of the heat insulating member 13 of any one side of the heat insulating member 13, the end of the blocking wall 14 is constant with the inner surface of the other heat insulating member (13). The other barrier wall 14 ′ is integrated with the inner side surface of the other side insulation member 13 so that the end portion has a predetermined gap with the inner side surface of the one side insulation member 13, but the barrier wall 14 And 14 'are positioned on the same line so that the ends of the blocking walls 14 and 14' are tightly pressed by their respective elasticities so that the left and right sides of the blocking walls 14 and 14 'are closed. do.

The heat insulating member 13 is extruded from a polyamide resin, and the barrier walls 14 and 14 'are extruded from a TPE (Thermal Plastic Elastomer) material. The polyamide resin is extruded from 150 to 210 ° C. At this point, the TPE material is double extruded so that the heat insulating member 13 and the barrier wall 14 are integrally formed.

The window frame 10 is fixed to the wall of the building, the window frame frame 16, the glass 19 is installed between the indoor window frame member 17 and the outdoor window frame member 18, the window It is coupled to the frame 10 to form a window (15).

The window frame 10 is coupled by a heat insulating member 13 which connects the indoor side window frame member 12 and the outdoor side window frame member 11, and the space A inside thereof is a blocking wall 14. And 14 '), the respective air spaces A are divided to block the flow of air, thereby improving heat insulation performance.

That is, when a temperature difference occurs between the indoor side and the outdoor side, the indoor side temperature and the outdoor side temperature are transmitted to the indoor side window frame member 12 and the outdoor side window frame member 11 of the window frame 10, respectively, to insulate the heat insulating member. (13) is reached.

Therefore, in many cases where the outdoor temperature is low, the air located at the outdoor window frame member 11 side among the air accommodated in the inner space A of the heat insulating member 13 has a lower temperature due to the influence of the outdoor temperature, The air located in the indoor window frame member 12 layer is elevated in temperature due to the influence of indoor air temperature.

As a result, an airflow phenomenon occurs in which hot air tries to move to the cold air side and cold air moves to the hot air side. Since the space A is isolated and blocked by the blocking walls 14 and 14 ', the air flow Is blocked.

Therefore, the heat loss due to the flow of air in the space portion (A) is prevented to further improve the thermal insulation performance.

In addition, even if the distortion of the window frame 10 occurs due to the stress or construction error of the window frame 10 or the wall, the barrier walls 14 and 14 'are flexible, as described above. Thus, the barrier wall 14, 14 'continues to completely block the improved insulation performance is to be maintained.

That is, the accompanying drawings, FIGS. 5 to 6 illustrate a state in which the blocking walls 14 and 14 'correspond to each other flexibly, and one side of the blocking wall 14' different from one side of the blocking wall 14 is illustrated. When the twisting phenomenon of the window frame 10 occurs in a state in which the side is pressed and supported by the side, the blocking walls 14 and 14 'are more tightly pressed as shown in FIG. As shown in the figure, the pressing state is supported closely in a relaxed state.

Therefore, even if a torsion of the window frame 10 occurs, the blocking walls 14 and 14 'are kept in close contact with each other, so that the closed state is maintained continuously, whereby the air flow in the space A is blocked. Insulation performance is maintained.

In addition, in forming the heat insulating member 13 and the blocking walls 14 and 14 'integrally, the heat insulating member 13 is made of a polyamide resin (containing 25% of polyamide 66 GF) which moves in the same direction as the linear expansion coefficient of aluminum. In addition, a non-polar soft material (TPE) is attached to the heat insulating member 13 to extrude the double to form the barrier walls 14 and 14 ', and the working temperature of the polyamide resin is 270 ° C. The working temperature of TPE material is 200 ℃, so when they are extruded together, the TPE material burns, making it impossible to produce.

Therefore, when the product surface temperature of the polyamide resin is 150 ℃ to 210 ℃ by adhering the TPE material and double extrusion molding it is possible to form a heterogeneous material integrally. Accordingly, the heat insulating member 13 and the blocking walls 14 and 14 ′ are adhesively extruded in a very solid state, and thus, the heat insulating member 13 and the blocking wall ( 14, 14 ') even if the strain stress is concentrated, it is easy to crack and prevent damage.

In addition, the two materials may be double-extruded by adding a special compatibilizer for imparting polarity to the TPE material to bond the non-polar TPE material to the polyamide resin, which is a polar material.
On the other hand, Figure 7 is a view showing another embodiment of the double insulating window frame according to the present invention, the end of the barrier wall (14, 14 ') is formed to extend the length of the barrier wall (14, 14') The end is to be pressed close to one side of the inner surface of the heat insulating member (13).

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In this other embodiment, since the ends of each of the blocking walls 14 and 14 'are pressed against and supported by the inner surfaces of the different heat insulating members 13, the double blocking by the respective blocking walls 14 and 14' is performed. Has an effect.

8 to 9, even if there is a distortion of the window frame 10 due to stress or construction errors, the end portions of the blocking walls 14 and 14 ′ are pressed against the inner surface of the heat insulating member 13. In this case, the double blocking effect by the blocking walls 14 and 14 'does not change, and thus the improved thermal insulation effect can be continued. .

1 to 2 are explanatory views showing a conventional double insulation window frame.

3 is an explanatory view showing a double insulating window frame according to the present invention.

Figure 4 is an explanatory view showing an enlarged main part of the double insulation window frame according to the present invention.

5 to 6 are partially enlarged explanatory diagrams showing a state in which the blocking wall of the window frame according to the present invention is elastically corresponding.

Figure 7 is an explanatory view showing another embodiment of a double insulating window frame according to the present invention.

8 to 9 are partially enlarged explanatory views showing a state in which the barrier wall of the window frame shown in FIG.

* Description of the symbols in the drawings *

10: window frame 11: outdoor window frame member

12: indoor side window frame member 13: heat insulating member

14,14 ': barrier 15: window

16: window frame frame 17: outdoor window frame member

18: indoor side window frame member 19: glass

Claims (4)

In a well-known window frame in which a heat insulating member arranged up and down is coupled between an outdoor window frame member and an indoor window frame member, and a blocking wall is formed inside the heat insulating member, respectively, and is fixed to a building wall. The two barrier wall ends inside the insulation member are pressed against each other to maintain the closed state between the barrier walls. The insulation member is extruded from polyamide resin, and the barrier wall is extruded from TPE. However, in the molding process of the heat insulating member, the polyamide resin is double-extruded the TPE material constituting the barrier wall at a time point 150 ℃ to 210 ℃ double insulation characterized in that the heat insulating member and the barrier wall is integrally bonded, extrusion molding Insulated window frame. delete delete delete

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