KR101093619B1 - Manufacturing method of adiabatic frame and adiabatic frame - Google Patents

Abstract

The present invention relates to a method for manufacturing an insulating frame, and more particularly, an upper wall having a slit in the longitudinal direction, both side walls extending downwards at both ends of the upper wall, a lower wall formed between the both side walls, and Obtaining a frame member including a connecting piece extending inwardly at one side of the lower wall, and a hollow wall formed at an end of the connecting piece so as to be spaced apart from the upper wall, both side walls, and the lower wall; Filling a heat insulating resin into a receiving space between the upper wall, both side walls and the lower wall, and the hollow wall through the slit of the frame member; Curing the insulating resin; And cutting a part of the lower wall.

According to the present invention configured as described above, since the upper wall, the lower wall, both side walls, the connecting piece, and the hollow wall of the frame member are manufactured by one extrusion molding, the manufacturing process is simple and the manufacturing cost can be significantly reduced. There is an effect that can improve the insulation and sound insulation.

 Frame member manufacturing step, insulation resin filling and curing step, bottom wall cutting step

Description

MANUFACTURING METHOD OF ADIABATIC FRAME AND ADIABATIC FRAME}

According to the present invention, since the upper wall, the lower wall, both side walls, the connecting piece and the hollow wall of the frame member are manufactured by one extrusion molding, the manufacturing process is simple and the manufacturing cost can be significantly reduced, and the impact resistance, heat insulation, soundproofing, etc. It relates to a method of manufacturing an insulating frame that can improve the

Specifically, the upper wall is formed with a slit in the longitudinal direction, both side walls extending downwards at both ends of the upper wall, the lower wall formed between the both side walls, the connecting piece extending inwardly formed on one side of the lower wall, the connecting piece Obtaining a frame member including a hollow wall formed at an end portion of the upper wall, both side walls, and a lower wall spaced apart from each other; Filling a heat insulating resin into a receiving space between the upper wall, both side walls and the lower wall, and the hollow wall through the slit of the frame member; Curing the insulating resin; And cutting a part of the lower wall.

In general, the windows of the building are provided with a heat shield frame in which heat inside the building is discharged to the outside of the building or inside the building to prevent cold air from flowing into the building. It is becoming.

Here, the heat shield frame 10 is the upper plate 110 is formed with a slit 112 in the longitudinal direction, as shown in Figure 1, both side plates 130 extending downward on both ends of the upper plate 110, It includes a lower plate 150 formed between the side plates 130.

At this time, after filling and curing the insulating resin 170 in the interior of the heat shield frame 10 through the slit 112, by cutting a portion 152 of the lower plate 150, heat inside the building It is possible to prevent the discharge of the air to the outside of the building, or the cold air from outside the building to enter the interior of the building.

However, when the space inside the heat shielding frame 10 is formed wide, the heat insulating resin 170 needs to be filled and cured in a larger amount. In this case, since the heat insulating resin 170 is expensive, the heat shielding frame There is a problem that the manufacturing cost of (10) rises.

In order to solve such a problem, as shown in FIG. 2, extrusion molding is performed in a state in which the one side frame 310 and the other side frame 330 are separated, respectively, and the other side and the other side frame 330 of the one side frame 310. On one side of the one or more fixing jaw (312,332) is protruded, the insulating frame 30 has been proposed that the solid insulating member 350 is fitted between the fixing jaw (312,332).

However, the insulation frame 30 has a hassle to extrude the one side frame 310 and the other side frame 330 separately.

In addition, the insulating member 350 for fixing to the fixing jaw 312 of the one side frame 310 and the fixing jaw 332 of the other frame 330 should also be manufactured separately.

And, both ends of the heat insulating member 350 is fixed to the fixed jaw 332 of the one side frame 310, the fixing jaw 312 and the other frame 330, and the need to be pressed and fixed once again have.

Therefore, the insulation frame 30 is not only complicated manufacturing process, but also takes a long time for the manufacturing process, which causes a problem that the manufacturing cost increases.

The present invention was created in order to solve the above problems, the manufacturing process is simple and can significantly reduce the manufacturing cost, and the manufacturing method and the insulating frame of the insulating frame that can improve the impact resistance, insulation and sound insulation Its purpose is to provide.

The present invention for achieving the above object is an upper wall formed with a slit in the longitudinal direction, both side walls extending downwards at both ends of the upper wall, a lower wall formed between the both side walls, the inner side on one side of the lower wall Obtaining a frame member including a connecting piece extending in the form and a hollow wall formed at an end of the connecting piece so as to be spaced apart from the upper wall, both side walls, and the lower wall; Filling a heat insulating resin into a receiving space between the upper wall, both side walls and the lower wall, and the hollow wall through the slit of the frame member; Curing the insulating resin; Cutting a portion of the lower wall; provides a method for producing an insulating frame comprising a.

Here, one or more protruding pieces are formed on the outer surface of the hollow wall of the frame member, and one or more protruding pieces are formed on the inner surfaces of the upper wall and the lower wall of the frame member.

In addition, the upper wall is formed with a slit in the longitudinal direction, both side walls extending downwards at both ends of the upper wall, the lower wall formed between the both side walls, the connecting piece extending inwardly formed on one side of the lower wall, the connecting piece A frame member including a hollow wall formed at an end thereof and spaced apart from the upper wall, both side walls, and the lower wall; A heat insulating member formed by filling and hardening a heat insulating resin in the receiving space between the upper wall, both side walls, and the lower wall and the hollow wall through the slit of the frame member, wherein the lower wall is in contact with the connecting piece of the frame member. It provides a window insulation frame, characterized in that made in part cut.

In particular, one or more protruding pieces are formed on the outer surface of the hollow wall of the frame member, and one or more protruding pieces are formed on the inner surfaces of the upper wall and the lower wall of the frame member.

In the present invention, since the upper wall, the lower wall, both side walls, the connecting piece and the hollow wall of the frame member are manufactured by one extrusion molding, the manufacturing process is simple and the manufacturing cost can be significantly reduced, and the upper wall at the end of the connecting piece , Since the hollow wall is formed to be spaced apart from both side walls and the lower wall, there is an effect that can improve the impact resistance, heat insulation and sound insulation.

And, by forming one or more protruding pieces on the outer surface of the hollow wall of the frame member, there is an effect that can further strengthen the adhesive force and bonding force of the heat insulating member is made of the heat insulating resin is cured.

In addition, by forming one or more protruding pieces on the inner surface of the upper wall and the lower wall of the frame member, the lower side in contact with the connecting piece of the frame member because it is possible to further strengthen the adhesive force and the bonding force of the heat insulating member formed by curing the heat insulating resin Even if a part of the wall is cut, there is no effect that the upper wall and the lower wall of the frame member are not separated.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Of course, the scope of the present invention is not limited to the following examples, and various modifications can be made by those skilled in the art without departing from the technical gist of the present invention.

3 is a cross-sectional view schematically showing a method of manufacturing a thermal insulation frame and a frame member 510 of the thermal insulation frame according to an embodiment of the present invention, and FIG. 4 is an upper wall 512, two side walls 514 and a frame member 510. A cross-sectional view schematically illustrating a state of curing the insulating resin 530 filled in the receiving space 520 between the lower wall 516 and the hollow wall 518.

The method of manufacturing the insulating frame and the insulating frame of an embodiment of the present invention is largely made of a frame member 510 manufacturing step, the insulating resin 530 filling and curing step, and the bottom wall 516 cutting step.

First, the manufacturing step of the frame member 510 is for manufacturing the frame member 510.

Here, the frame member 510 is extruded to be installed in, for example, a curtain wall and a window of a building, and as shown in FIGS. 3 and 4, an upper wall in which a longitudinal slit 512a is formed. 512, both side walls 514 extending downward at both ends of the upper wall 512, a lower wall 516 formed between the both side walls 514, and an inner side of one side of the lower wall 516. It includes an extended connection piece 516a and a hollow wall 518 formed at an end of the connection piece 516a to be spaced apart from the upper wall 512, both side walls 514, and the lower wall 516. .

On the other hand, the frame member 510 may be a metal material such as aluminum, but is not necessarily limited thereto.

Here, the number of the upper wall 512, the side wall 514 and the lower wall 516 of the frame member 510 is not necessarily limited to those shown in the drawings, it may be formed in plurality in accordance with other uses, respectively. have.

The shape and structure of the frame member 510 is not limited to FIGS. 3 and 4, and the frame member 510 may be formed in an extruded shape and structure so as to be installed in a curtain wall and a window of a building.

5 is a cross-sectional view schematically illustrating a state in which a portion 516b of the lower wall 516 of the frame member 510 is cut while the insulating resin 530 of FIG. 4 is cured by the insulating member 532.

Next, the filling and curing step of the insulating resin 530, as shown in Figure 4 and 5 through the slit 512a of the frame member 510, the upper wall 512, both side walls 514 and the lower The insulating resin 530 is filled in the receiving space 520 between the wall 516 and the hollow wall 518 and then cured by the insulating member 532.

Here, the outer surface of the hollow wall 518 of the frame member 510 is preferably formed with one or more protruding pieces (518a) as shown in FIGS.

More specifically, when the one or more protruding pieces 518a are formed on the outer surface of the hollow wall 518 of the frame member 510, the upper wall 512 through the slit 512a of the frame member 510. As shown in FIG. 5, the one or more protruding pieces (530) are filled in the accommodating space 520 between both side walls 514 and the lower wall 516 and the hollow wall 518. It is possible to harden the heat insulating member 532 in contact with the 518a.

On the other hand, as the heat insulating resin 530 may be used a polyurethane resin having a low thermal conductivity, but is not necessarily limited thereto.

As described above, the one or more protruding pieces 518a are formed on the outer surface of the hollow wall 518 of the frame member 510, so that the heat insulating resin 530 is hardened, and thus the adhesive force and the bonding force of the heat insulating member 532 are hardened. There is an effect that can be strengthened.

Next, the cutting step of the lower wall 516 is the frame member as shown in Figure 5 to block the heat of the interior of the building is discharged to the outside of the building, or the cold air from the outside of the building to the inside of the building A portion 516b of the lower wall 516 in contact with the connecting piece 516a of 510 is cut out.

Here, one or more protruding pieces 512b may be formed on inner surfaces of the upper wall 512 and the lower wall 516 of the frame member 510.

More specifically, when the one or more protruding pieces 512b are formed on the inner surfaces of the upper wall 512 and the lower wall 516 of the frame, the insulating resin 530 contacts the one or more protruding pieces 512b. It can be cured by the heat insulating member 532 in the state.

The lower wall 516 of the lower wall 516 in contact with the connecting piece 516a of the frame member 510 may be configured to prevent heat from being emitted to the outside of the building or cool air from outside the building to be introduced into the building. Portion 516b is cut using, for example, a grinder or the like.

As described above, the one or more protruding pieces 516b are formed on the inner surfaces of the upper wall 512 and the lower wall 516 of the frame member 510, so that the insulating resin 530 is cured. Since the adhesive force and the bonding force of) can be further strengthened, the upper wall 512 of the frame member 510 may be cut even when a portion 516b of the lower wall 516 in contact with the connecting piece 516a of the frame member 510 is cut off. ) And the lower wall 516 is advantageous that there is no fear of separation.

Here, when the lower wall 516 of the frame member 510 is cut off, one side or the other side of the lower wall 516 may be cut off, but as shown in FIG. 5, the connecting piece of the frame member 510 is preferably cut. It is better to cut a portion 516b of the lower wall 516 in contact with 516a.

On the other hand, the frame member 510 may be installed in a curtain wall and windows of a building, but is not necessarily limited thereto, and may be installed in any other place requiring heat insulation.

As described above, since the upper wall 512, the lower wall 516, the side wall 514, the connecting piece 516a and the hollow wall 518 of the frame member 510 are manufactured by one extrusion molding, the manufacturing process is performed. The manufacturing cost can be significantly reduced, and the hollow wall 518 is formed at an end portion of the connecting piece 516a to be spaced apart from the upper wall 512, both side walls 514, and the lower wall 516. Therefore, there is an advantage that can improve impact resistance, heat insulation and sound insulation.

1 is a cross-sectional view schematically showing a state in which a heat insulating resin is filled and cured in a conventional heat insulating frame,

2 is a cross-sectional view schematically showing a state in which the insulation member is fitted to the fixing jaw of one frame and the fixing jaw of the other frame of the conventional insulating frame,

Figure 3 is a cross-sectional view schematically showing a manufacturing method of the insulating frame and the frame member of the insulating frame is an embodiment of the present invention,

Figure 4 is a cross-sectional view schematically showing a state of curing the heat insulating resin filled in the receiving space between the upper wall, both side walls and the lower wall and the hollow wall of the frame member,

FIG. 5 is a cross-sectional view schematically illustrating a state in which a portion of the lower wall of the frame member is cut while the insulating resin of FIG. 4 is hardened by the insulating member. FIG.

*** Explanation of symbols for main parts of drawing ***

10; Thermal barrier frame, 110; Top Panel,

112,512a; Slit, 130; Side Panel,

150; Bottom plate, 152,516b; Part,

170; Insulating resin, 30,50; Insulation Frame,

310; One-sided frame, 312,332; Fixed jaw

330; The other frame, 350; Heat Insulation,

510; Frame member, 512; Top Wall,

512b, 518a; Protruding piece, 514; Wall,

516; Bottom wall, 516a; Connection,

518; Hollow wall, 520; Space,

530; Insulating resin, 532; Insulation member

Claims (6)

An upper wall formed with a longitudinal slit, both side walls extending downwardly at both ends of the upper wall, a lower wall formed between the both side walls, a connecting piece extending inwardly on one side of the lower wall, and an end portion of the connecting piece. Obtaining a frame member including a hollow wall formed to be spaced apart from the upper wall, both side walls, and the lower wall; Filling a heat insulating resin into a receiving space between the upper wall, both side walls and the lower wall, and the hollow wall through the slit of the frame member; Curing the insulating resin; Cutting a portion of the lower wall; Method of manufacturing an insulating frame, characterized in that at least one protruding piece is formed on the inner surface of the upper wall and the lower wall of the frame member. The method of claim 1, The outer surface of the hollow wall of the frame member manufacturing method of the insulating frame, characterized in that at least one protruding piece is formed. An upper wall formed with a longitudinal slit, both side walls extending downwardly at both ends of the upper wall, a lower wall formed between the both side walls, a connecting piece extending inwardly on one side of the lower wall, and an end portion of the connecting piece. A frame member including a hollow wall formed to be spaced apart from the upper wall, both side walls, and the lower wall; And a heat insulating member formed by filling and hardening a heat insulating resin in the receiving space between the upper wall, both side walls, the lower wall and the hollow wall through the slit of the frame member. A portion of the lower wall in contact with the connecting piece of the frame member is made by cutting, Insulation frame, characterized in that one or more protruding pieces are formed on the inner surface of the upper wall and the lower wall of the frame member. The method of claim 3, Insulation frame, characterized in that one or more protruding pieces are formed on the outer surface of the hollow wall of the frame member. delete delete

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