KR102423346B1 - Light-weight insulation frame - Google Patents

Abstract

The lightweight thermal insulation frame includes a central core formed in full length, a plurality of divided reinforcement parts spaced apart from both sides of the central core at predetermined intervals along the longitudinal direction and mounted on the central core, and a frame cover covering the outer surface of the divided reinforcement part by the entire length. The divided reinforcing part includes a reinforcing body forming an opening to the outside, an upper protrusion protruding from the inner side of the reinforcing body and contacting the upper surface of the central core, and a lower protrusion protruding from the inner side of the reinforcing body and contacting the lower surface of the central core And, the divided reinforcing part is mounted on the central core by a fastener that enters through the opening, and at least one of the divided reinforcing part and the central core may be formed of a heat insulating material.

Description

LIGHT-WEIGHT INSULATION FRAME

The present invention relates to an insulating frame, and more particularly, to a lightweight insulating frame.

In forming a wall structure using tempered glass, etc., a window frame is used, and the window frame can fix single or double glass. When a single piece of glass is used, insulation and soundproofing performance is lowered than when using double glass. .

However, even if double glass is used, the conventional window frame plays a role of directly transmitting the outdoor temperature because it is in direct contact with indoor and outdoor air. High temperature can cause dew condensation due to the temperature difference inside and outside, and it can also be the main culprit for heat loss.

In order to solve this problem, an insulating frame that thermally separates the inside and outside of the frame by inserting an Azon or PVC frame in the center of the aluminum core has been conventionally used. However, the conventional insulation frame may have poor durability because Azone or PVC, which has a lower hardness than metal, is used, and the structure tends to be somewhat complicated. In addition, the unit price or frame weight may increase due to the Azone or PVC structure inserted in the middle.

Korean Patent Registration No. 10-1708286 discloses a "cost-saving insulation frame for windows and doors".

1 is a perspective view showing a conventional heat insulating frame, FIG. 2 is a cross-sectional view of the heat insulating frame of FIG.

1 and 2, the heat insulation frame (H) for reducing the cost by using the reinforcement frame (10 ~ 10b) divided into a number is disclosed. The insulating frame (H) has a glass insertion portion 12 recessed along the longitudinal direction in the center of the upper surface portion 11, respectively, above and below the Azone filling chamber 13 formed in the center of the lower end of the glass insertion portion 12, respectively. A plurality of divided reinforcement frames 10 to 10b in which the heat conduction prevention cutout 13a and the Azone injection hole 13b are opened, the Azone insulation material 20 filled and installed in the Azone filling chamber 13, and a plurality of divided reinforcement frames 10~ 10b) is disposed at a distance from each other, and via the inner surface of the glass insert 12 of a plurality of divided reinforcement frames 10 to 10b arranged at intervals, the upper surface portion 11 of the divided reinforcement frame 10 to 10b ), the side portion 14, and a pair of exterior frames 30 installed to continuously surround the lower surface portion 16 .

At the same time, a plurality of divided reinforcing frames (10 to 10b) are installed so that the PVC binding cover 40 is overlapped in each glass insertion part 12, and the PVC binding cover 40 has a bottom surface of a heat conduction prevention cutout ( 13a) is seated on a pair of support protrusions 13c formed to protrude upward on both sides, and both sides of the upper surface of the PVC binding cover 40 are bent downwardly on the upper surface of the outer frame 30. It is fixed by pressing downward, and the bending prevention protrusion 41 bent upwardly formed at both ends of the PVC binding cover 40 pushes the locking protrusion 31 inward to maintain a strong bonding force.

However, although the insulation frame uses a reinforcement frame divided into a plurality, it cannot perform its function as a frame because there is no support structure connecting the divided reinforcement frame, and the reinforcement frame and the exterior frame of stainless steel ( 30) has a disadvantage that a support structure cannot be formed because there is no method for mutual coupling other than double-sided tape.

Substantially, the PVC binding cover 40 is not structurally bound to the divided reinforcing frames 10 to 10b, but simply serves to block the upper part while being supported by the supporting protrusion 13c, so it has no structural function. .

In addition, since there is no element corresponding to the PVC binding cover in the lower part of the insulating frame into which the glass is inserted, the inside is exposed in an empty state, which also gives a disadvantage of providing anxiety to workers and customers.

The present invention provides a lightweight insulation frame that can achieve the purpose of cost reduction and light weight while using a divided reinforcement part, while structurally having a frame structure without a frame cover for external finishing purposes.

The present invention provides a lightweight insulating frame that can effectively block the portion exposed to the outside and maintain the same as the conventional frame.

According to an exemplary embodiment of the present invention for achieving the above-described objects of the present invention, the heat insulation frame is mounted on the central core by being spaced apart from each other at predetermined intervals along the longitudinal direction on both sides of the central core formed in the entire length and the central core. and a frame cover covering the outer surface of the divided reinforcement part by a full length, the divided reinforcement part being a reinforcement body forming an opening to the outside, the reinforcement body protruding from the inside of the reinforcement body It includes an upper protrusion and a lower protrusion protruding from the inner side of the reinforcing body and contacting the lower surface of the central core, and the divided reinforcing part is mounted on the central core by a fastener entering through the opening, and among the divided reinforcing part and the central core. At least one may be formed of a heat insulating material.

In the conventional heat insulation frame, the structure is weak because the overall structure is supported by the divided reinforcement frame and the exterior frame in contact with three sides of the reinforcement frame, and the normal function is not achieved because the reinforcement frame and the exterior frame can be fixed only by double-sided adhesive tape. I can't.

However, the heat insulation frame according to the present embodiment uses a divided reinforcing part, and the reinforcing part may be fixed to both sides around a central core to form a solid structure. In addition, the reinforcing body of the divided reinforcing part may include an opening open to the outside so that a fastener such as a screw enters from the outside to fix the reinforcing part to the central core. Here, the opening may be provided with a predetermined area in an entirely open state, or may be provided by forming a hole in a part of the reinforcing body.

The central core is provided with a synthetic resin material, and may further include a hollow metal core accommodated therein. In this case, a screw reinforcement portion corresponding to the entry path of the fastener may be formed inside the metal core.

Of course, the central core may be an aluminum extrusion, and the divided reinforcing part may be formed of a synthetic resin material of a heat insulating material. Of course, both the reinforcing part and the central core may be formed of a synthetic resin material.

Left and right partition walls for defining the glass receiving part may be formed on at least one of the upper and lower surfaces of the central core, and support protrusions for supporting the partition wall or the frame cover may be formed inside the divided reinforcing part.

The heat insulation frame of the present invention uses a divided reinforcement part, while maintaining a structurally stable frame structure without a frame cover for external finishing purposes, and achieving cost reduction and light weight purposes.

The present invention can effectively block the portion exposed to the outside to maintain the sameness as the conventional frame.

1 is a perspective view showing a conventional insulating frame.
FIG. 2 is a cross-sectional view of the heat insulating frame of FIG. 1 .
3 is a perspective view for explaining an insulating frame according to an embodiment of the present invention.
FIG. 4 is a cross-sectional view of the heat insulating frame of FIG. 3 .
5 is an exploded perspective view of the heat insulating frame of FIG. 3 .
6 is a cross-sectional view for explaining an insulating frame according to an embodiment of the present invention.
7 is a cross-sectional view for explaining insulating frames according to other embodiments of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited or limited by the embodiments. For reference, in this description, the same numbers refer to substantially the same elements, and contents described in other drawings under the above rules may be described by reference, and contents determined to be obvious to those skilled in the art or repeated may be omitted.

3 is a perspective view for explaining the heat insulation frame according to an embodiment of the present invention, FIG. 4 is a cross-sectional view of the heat insulation frame of FIG. 3 , and FIG. 5 is an exploded perspective view of the heat insulation frame of FIG. 3 .

3 to 5 , the heat insulation frame 100 according to the present embodiment may be used in various structures such as windows, tempered glass structures, glass doors, sandwich panel frames, and the like. , etc. may be mounted.

The heat insulation frame 100 includes a central core 110 formed in the entire length, and a plurality of divided reinforcement parts 120 spaced apart from each other at predetermined intervals along the longitudinal direction on both sides of the central core 110 and mounted on the central core 110 . ) and a frame cover 130 formed in full length to cover the outer surface of the divided reinforcement part 120 .

In the present embodiment, the divided reinforcing parts 120 are symmetrically spaced apart from each other at equal intervals with respect to the central core 110 , but may be provided alternately left and right, and the spacing may be non-uniform.

The divided reinforcing part 120 may be provided using an aluminum extrusion, and the aluminum molding may be cut to a predetermined length and attached to the central core. In addition, although the metal core 140 is built inside the central core 110, it is possible to maintain a stable structure as a whole because the left and right insulation functions as a whole.

However, compared with the conventional heat insulation frame, in the conventional heat insulation frame, the raw material, which is an aluminum molding, is filled with Azone, etc., the liquid Azone is cured, and the part where the Azone is formed from the raw material is cut in the longitudinal direction to form left and right insulation. , and finally, it has to go through a complicated process such as cutting it to fit the length of the reinforcing frame.

Of course, as shown in FIG. 2, in the conventional thermal insulation frame, since the left and right structures are connected only by the central azone, there is a problem in that overall stability is remarkably deteriorated.

To this end, the reinforcing part 120 according to the present embodiment includes a reinforcing body 122 that forms an opening 123 to the outside, and an upper portion protruding from the inside of the reinforcing body 122 and in contact with the upper surface of the central core 110 . It includes a protrusion 124 and a lower protrusion 126 protruding from the inner side of the reinforcing body 122 to contact the lower surface of the central core 110 .

Referring to FIG. 5 , the divided reinforcing part 120 is disposed when a predetermined interval is maintained on the left and right sides of the central core 110 , and the central core is formed by a fastener 150 such as a screw entering through the opening 123 . It can be firmly fixed to (110).

In this embodiment, the opening 123 is formed in the longitudinal direction of the reinforcing body 122, but in another embodiment, the reinforcing body may be provided in a rectangular column shape, and a hole is formed in a part of the reinforcing body. It may be formed to form an opening.

In this embodiment, the divided reinforcing part 120 may be provided by cutting an aluminum extrusion, and the central core 110 may be provided by an extrusion of a synthetic resin. The inside of the central core 110 may be provided in a hollow shape, and the metal core 140 may be provided in its inner space.

The metal core 140 may be inserted into the central core 110 to improve durability of the central core 110 , and provide significant rigidity to the central core 110 . In addition, it is possible to maintain a stable fastening force such as screws in a situation in which the fasteners 150 are fastened to the left and right.

A screw reinforcement part 120 corresponding to the entry path of the fastener 150 may be formed in parallel inside the metal core 140 , and the thread of the fastener 150 is coupled by the screw reinforcement part 120 . It is possible to maintain a stable fastening without shaking left and right up and down.

In this embodiment, the metal core 140 is an aluminum extruded product, and the central core 110 is a synthetic resin extruded product, but in another embodiment, the central core may be an aluminum extruded product, and rather the divided reinforcing part is a synthetic resin material of insulating material. can be formed with Of course, it is also possible that the reinforcing part, the central core, and the like are all formed of a synthetic resin material.

After fastening the divided reinforcement part 120 to the central core 110 , the frame cover 130 may be mounted on the heat insulation frame 100 by pushing the frame cover 130 in the longitudinal direction or bending it directly in the field. .

A support protrusion 128 for supporting the frame cover 130 may be formed inside the divided reinforcing part 120 , and a closing protrusion is formed at the top and bottom of the central core 110 to form the inside of the heat insulation frame 100 . can be blocked, and the divided reinforcing part 120 is not visible to the outside.

6 is a cross-sectional view for explaining an insulating frame according to an embodiment of the present invention.

Referring to FIG. 6 , the central core 110 may be provided without the internal metal core 140 , and various structures such as barrier ribs or resistors are provided in the internal space of the central core 110 to improve internal strength. it might be

7 is a cross-sectional view for explaining insulating frames according to other embodiments of the present invention.

Referring to (a) of FIG. 7 , the heat insulation frame according to the present embodiment may include a central core 210 , a metal core 240 , a divided reinforcing part 220 , and a frame cover 230 , divided The reinforced part 220 may include a reinforcing body 222 , an upper protrusion 224 , a lower protrusion 226 , and a support protrusion 228 while being mounted on both sides of the central core 210 .

The central core 210 may be provided at an eccentric position in the upper or lower portions rather than the upper and lower centers, and left and right partition walls 214 for defining the glass receiving portion may be further formed in the lower portion of the central core 210 . Since the divided reinforcing parts 220 are mounted spaced apart, the inside may look flat in the absence of the bulkhead 214, but in the state with the left and right bulkheads 214, it maintains a stable shape like other conventional thermal insulation frames, and is relatively light weight and cost savings.

Also in (b) of FIG. 7 , the heat insulation frame may include a central core 310 , a metal core 340 , a divided reinforcement part 320 , and a frame cover 330 , and the divided reinforcement part 320 is It may include a reinforcing body 322 , an upper protrusion 324 , a lower protrusion 326 , and a support protrusion 328 while being mounted on both sides of the central core 310 .

However, when the partition wall 314 protruding downward of the central core 310 is quite long, a support protrusion 328 ′ for supporting the partition wall 314 to the inside of the reinforcing part 320 may be additionally formed. have.

As described above, although the present invention has been described with reference to a preferred embodiment, those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the following claims. You will understand that it can be done.

100: insulation frame 110: central core
120: divided reinforcement 130: frame cover
140: metal core 150: fastening part

Claims (5)

In the insulating frame,
One central core formed in full length, four or more divided reinforcement parts spaced apart from both sides of the central core at predetermined intervals along the longitudinal direction and mounted on the central core, and the entire length to cover the outer surface of the divided reinforcement part frame cover,
The divided reinforcing part includes a reinforcing body forming an opening to the outside, an upper protrusion protruding from the inner side of the reinforcing body and in contact with the upper surface of the central core, and a lower protrusion protruding from the inner side of the reinforcing body and contacting the lower surface of the central core. including, wherein the divided reinforcing part is mounted to the central core by a fastener entering through the opening,
The length of the divided reinforcing part is shorter than 1/2 of the length of the central core,
Since the upper protrusion and the lower protrusion are not bent, the divided reinforcing part approaches from the left and right sides of the central core and is mounted on the central core,
At least one of the divided reinforcing part and the central core is formed of a heat insulating material
At least one of the divided reinforcing part and the central core is formed of a heat-insulating material,
Insulation frame, characterized in that the fasteners are separated from each other. According to claim 1,
The central core is provided with a synthetic resin material, and further comprises a hollow metal core accommodated therein along the longitudinal direction of the central core. 3. The method of claim 2,
Insulation frame, characterized in that the screw reinforcement corresponding to the entry path of the fastener is formed inside the metal core. According to claim 1,
Insulation frame, characterized in that the left and right partition walls for defining the glass receiving portion are formed on at least one of the upper surface and the lower surface of the central core. 5. The method of claim 4,
Insulation frame, characterized in that the support protrusion for supporting the partition wall or the frame cover is formed inside the divided reinforcement part.

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