KR200434719Y1 - Composite windows and doors - Google Patents

Abstract

The present invention relates to a composite window comprising a combination of the inner and outer molds of different materials.

More specifically, the outer aluminum shape (60) is formed at each corner of the vertical corners 64 to form a 90 ° orthogonal fit, and the inner heat insulating member (80) is formed at each corner of the miter corner (84) 45 ° miter fit. In addition, the air convex protrusions 62 are formed on one side in the longitudinal direction of the aluminum shape member 60, and the coupling grooves 82 are formed on the heat insulating material 80 to correspond to the air convex protrusions 62. Both mold members (60) and 80) are fitted, and the left and right doors (4) overlap the bending portion formed by the insulation member 80 in a maneuvering shape, maximizing the thermal insulation effect of the composite window, the bonding process is easy, but the binding force is high, To make the appearance more beautiful and stable.

Composite window, aluminum shape, insulation shape, assembly

Description

Compound Window {COMPOSITE WINDOWS AND DOORS}

1 is a front view according to an embodiment of the present invention.

Figure 2 is a plan sectional view of a pair of doors in accordance with an embodiment of the present invention.

Figure 3 is a front configuration diagram showing a state in which the aluminum member and the heat insulating member of the door according to the embodiment of the present invention.

4 is a front configuration diagram illustrating a state in which both mold members of FIG. 3 are combined;

5 is an exploded and coupled perspective view of the door according to the embodiment of the present invention.

Figure 6 is a partial cutaway perspective view of the overlapping portion when opening the right door to the left according to an embodiment of the present invention.

Figure 7 is a plan sectional view showing a state in which the aluminum and heat insulating member separated according to an embodiment of the present invention.

FIG. 8 is a plan sectional view showing a state in which both mold members of FIG. 4 are combined; FIG.

<Explanation of symbols for the main parts of the drawings>

(2)-window (4)-door

(6)-window (8)-mohair

(60)-Aluminum Profile (62)-Reciprocator

(64)-Right Corner (80)-Insulation

(82)-Joint Dowel (84)-Miter Edge

(G)-Niche (100)-Composite Window

The present invention relates to an improvement of a composite window configured by combining the outer aluminum shape member and the inner insulation shape member.

In general, composite windows installed in windows and balconies of a building constitute one or more pairs of doors with window glass inside the window frames. The window frame and the door are mainly made of an aluminum material to be resistant to moisture due to rain, and the inner mold is formed of wood or PS, such as synthetic resin to increase insulation, sound insulation and beautiful appearance.

In general, the outer aluminum shape and the inner heat insulating material are cut into the same shape, and are composed of up, down, left, and right corners, and the edges are mainly combined at a 45 ° miterion, so that the gap between the edges of the two shapes is located on the same line. There was a problem of exposure to the room. In addition, by forming a heat insulating member only a part of the front portion of the overlap of the door, there is a problem that the outside is exposed to the interior by the side gap of the door overlap. In this regard, the composite window has an insulation effect, but in reality, the insulation effect is inadequate because the outside air is infiltrated into the gap between the edge joint or the side overlap of the door.

In addition, when the outer aluminum shape and the inner heat insulating material is combined, the linear assembly protrusion of the aluminum shape is inserted into the assembling groove of the heat insulating material, and at the same time using an adhesive, or after assembly, the fixing is fixed by bolts or the like. However, the use of fasteners such as adhesives and bolts not only makes the bonding process difficult and takes a long time, but also causes a problem that the outflow of the adhesive or the exposure of the fasteners deteriorates the appearance.

Therefore, an object of the present invention is to provide a composite window that can further increase the insulation effect by forming an aluminum shape and a heat insulating shape so that the outside is completely blocked.

Another object of the present invention is to provide a composite window that can easily and quickly and tightly combine the aluminum shape and the heat insulating material.

Another object of the present invention is to provide a composite window that can form the appearance more beautiful.

In order to achieve the above object, the present invention, each corner of the aluminum shape member 60 of the outer side is formed with a vertical edge 64 to combine at a right angle of 90 °, and each corner of the inner insulation member 80 of the inside Formed with mitered corners (84) to combine the 45 ° miter tailored. In addition, by forming the air-conditioning protrusion 62 in a plane on one side in the longitudinal direction of the aluminum shape member 60 and forming the coupling groove portion 82 to correspond to the air-conditioning protrusion 62 in the heat insulating member 80, The two mold members 60 and 80 are fitted to each other, and the left and right doors 4 are overlapped with each other to form a heat insulating member 80 in a cross-sectional shape.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view according to an embodiment of the present invention, Figure 2 is a plan sectional view of a pair of doors according to the embodiment of the present invention.

The composite window 100 of the present invention is configured such that one or more pairs of doors 4 having the window glass 6 are coupled to the inside of the window frame 2 so as to move left and right. And, as shown in Figure 2, the door 4 is composed of a double bond of the dissimilar material of the outer aluminum shape member 60 and the inner insulation shape member 80, the window frame 2 also has the same structure similar to the door 4 Configure to have.

3 is a front configuration diagram showing a state in which an aluminum shape member and a heat insulating member are separated from the door according to an embodiment of the present invention, FIG. 4 is a front view of the combination of FIG. 3, and FIG. 5 is an exploded view of the door according to the embodiment of the present invention. And a combined perspective view. As described above in detail from the combined configuration of the four corners of the aluminum shape member 60 and the heat insulating member 80 of the present invention as follows.

In the aluminum shape member 60 of the present invention, the width D1 of the left and right shape members is narrower than the width D2 of the upper and lower shape members when viewed from the front as shown in FIG. 3 (D1 ≦ D2), and each corner of the aluminum shape member 80 is Formed by the right corner 64, the four corners are configured in a 90 ° right-angle fit. As described above, a wider width D2 of the upper and lower profile members may be more stable than the entire composite window 100, but it is irrelevant to configure a smaller width D2 of the upper and lower profile members (D1? D2).

Insulation shape member 80 of the present invention is to form a width (D3) of the upper and lower left and right than the width (D1, D2) of the aluminum shape member 60 so as to surround the aluminum shape member 60 as shown in Figure 3 (D3 > D1, D2, and the upper, lower, left and right widths D3 of the aluminum shape member 60 are configured to be the same. In addition, each corner is formed to have a miter edge 84 to combine the four corners 45 ° miter custom combination.

As shown in FIG. 4 and FIG. 5, when the aluminum shape member 60 and the heat insulating member 80 are formed by combining corners, the edge coupling positions of the two shape members 60 and 80 are different. Therefore, the edge coupling gap G of the aluminum shape member 60 is to be covered by the heat insulating shape member 80. Therefore, when the user closes the door to the composite window 100, the outside is completely blocked, as well as the outside air does not penetrate into the gap (G) of the two mold members 60, 80 even when the user opens the door. . In addition, the heat insulating member 8 formed in the same width as the top, bottom, left and right is much more beautiful to the user.

The door 4 and the window frame 2 of the composite window 100 of the present invention is to be configured by combining the outer aluminum shape member 60 and the inner heat insulating member 60 as described above.

At this time, as shown in Figs. 2 and 6 for the coupling of the outer aluminum shape member 60 and the inner heat insulating shape member 80, in the aluminum shape member 60 in the longitudinal direction on one side in the planer projections 62 ), And the coupling groove portion 82 is formed in a portion corresponding to the retarder protrusion 62 in the heat insulating member 80. In addition, when the air convex protrusion 62 of the aluminum shape member 60 and the coupling groove portion 82 of the heat insulation shape member 80 are coupled to each other, the other end portion is longitudinally connected to one end portion of both the shape members 60 and 80. It's like fitting together.

On the other hand, the heat insulating member 8 is a heat insulating member 80 so as to cover the inner part of the aluminum member 60, that is, the entire front and side surfaces, as shown in Figs. It is formed by bending in the shape of a maneuver. When the insulating member 80 is configured as a paradoxical shape, the side of the aluminum member 60 without appearance is not exposed to the inside, so that the appearance of the entire composite window becomes better.

”형 돌출부 즉, 기역자돌부(62)를 형성한다. 상기 기역자돌부(62)와 대응되도록 단열형재(80)에는 결합홈부(82)를 형성하여, 기역자돌부(62)와 결합홈부(82)를 도 8에서처럼 끼움 결합한다. 여기서, 알루미늄형재(60)에 기역자돌부(62)가 아닌 돌출가지를 여러 방향으로 동시에 다수 개 구성하면, 끼움 시 너무 뻑뻑하여 공정이 어렵게 되는 것이다.The composite window 100 of the present invention is very tightly coupled to both mold members 60 and 80 only by the fitting process when the outer aluminum member 60 and the inner heat insulating member 60 are fitted together. Has characteristics. As a preferred embodiment, as shown in a plan view in FIG. 7, two parts of the aluminum member 60 are combined with the insulating member 80.

”Shaped protrusions, i. E. The coupling groove portion 82 is formed in the heat insulating member 80 so as to correspond to the refractory protrusion 62, and the refractory protrusion 62 and the coupling groove 82 are fitted as shown in FIG. 8. Here, if a plurality of protruding branches instead of the protruding protrusions 62 are simultaneously formed in various directions on the aluminum shape member 60, the process becomes difficult due to too stiffness during fitting.

Unexplained symbol (8) is mohair.

As described above, the present invention has a very high thermal insulation effect, and the bonding process between the outer aluminum shape member and the inner heat insulating material is easy, but the binding force is high, and the appearance seen from the interior makes the user feel a sense of stability and has a more beautiful effect.

Claims (5)

In the composite window consisting of a combination of the outer aluminum shape member 60 and the inner heat insulating member 80, Aluminum shape 60 is formed by the vertical corners (64) of each corner formed by combining the 90 ° right-angle fit, and the heat insulating member 80 is formed by the mitered corner (84) each corner 45 ° mitered Forming a combination, the composite window characterized in that the aluminum shape member 60 and the heat insulating member 80 is configured to be combined. The method of claim 1, Forming the convex projections 62 in a plane on one side in the longitudinal direction of the aluminum shape member 60 and the coupling groove portion 82 is formed in the portion corresponding to the convex projections 62 in the heat insulating member 80, the aluminum shape member Fitting the interlocking protrusions 62 of the 60 and the coupling grooves 82 of the heat insulating member 80; The left and right doors (4) overlap portion is a composite window characterized in that the insulating member 80 is formed by bending the insulation to cover the entire exposed portion of the aluminum member (60). In the composite window consisting of a combination of the aluminum shape member 60 on the outside and the heat insulating member 80 on the inside, By forming the convex projections 62 in a plane on one side of the aluminum shape member 60 in the longitudinal direction, and forming the coupling grooves 82 in the portion corresponding to the convex projections 62 in the heat insulating member 80, aluminum Composite door characterized in that the coupling structure by inserting the coupling recess portion 62 of the mold member 60 and the coupling groove portion 82 of the heat insulating member 80. In the composite window consisting of a combination of the outer aluminum shape member 60 and the inner heat insulating member 80, The left and right doors (4) overlap portion is a composite window characterized in that the insulating member 80 is formed by bending the insulation to cover the entire exposed portion of the aluminum member (60). The method of claim 3, wherein The left and right doors (4) overlap portion is a composite window characterized in that the insulating member 80 is formed by bending the insulation to cover the entire exposed portion of the aluminum member (60).

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