KR101235080B1 - Assembly of frame and insulating box - Google Patents

Abstract

PURPOSE: A coupling structure of an insulation box and a frame are provided to bond the connection part of an insulation box and a frame with a metal-to-metal adhesive to be simply integrated, thereby preventing the loss of the insulation effect of an insulation material damaged by welding. CONSTITUTION: A coupling structure of an insulation box and a frame include a pair of square-shaped supporting frames(10) composed of joints(11) on both C-shaped ends and an insulation box frame(20) arranged between and connected to the pair of supporting frames. The insulation box frame includes an insulating material fill port, a hollow part, a support bar, a fixing bar, and an insertion port. The insulating material fill port has a center part for the insertion of an insulating material(30) to block the transfer of the outdoor temperature to indoors. The hollow parts are formed on both sides of the insulating material fill port. The support bar is formed to be respectively protruded from the exterior angled surfaces of the hollow parts respectively upward and downward. The fixing bar is formed to be connected to the support bar to be curved in parallel to the support bar. The insertion hole is formed between the support bar and the fixing bar for the connection for the joint to be inserted. The contact surface of the insertion hole and the joint is filled with a metal-to-metal adhesive.

Description

Assembly of Frame and Insulating Box

The present invention relates to a coupling structure of the frame and the heat insulation box, and more particularly, to form a heat insulation box for connecting and supporting the multi-layer glass made of aluminum material and to easily combine the frame with a metal and at the same time due to the temperature difference between the indoor and outdoor To prevent condensation on the glass of the window, to prevent heat loss and outside noise of the room through the window frame and the window, and to have a thermal insulation function.

In general, a curtain wall is a structure installed to support vertical and horizontal loads applied to the building from the outside on the frame of pillars and beams, which are the main structures of the building, and is used for attaching and removing a finishing material such as a glass wall. It refers to a frame structure, which is usually provided with a horizontal frame and a vertical frame, and installs a glass wall made of multilayer glass via an adapter member mounted on these frames.

In recent years, as the building structure is higher, curtain walls are used to construct the outer wall of the building. Curtain wall means non-bearing partition walls that do not support the load, and the panel of the same standard is mass-produced in the factory and installed on site, which not only reduces the load of the building but also shortens the air. In terms of energy efficiency, it is essential to develop high insulation, high-thick curtain wall to reduce thermal energy loss.

However, these curtain walls are mainly used for high-rise building structures, which makes it difficult to install horizontal and vertical frames in the field, is not easy to assemble, and furthermore, almost finishes of the exterior walls with glass finishes for a beautiful appearance. Because of this, not only excellent insulation and airtightness, but also increase the cost of heating and cooling, and also caused various problems such as condensation occurs.

In particular, curtain wall is used for window or window material as plastic or aluminum, but plastic has excellent heat insulation performance, but the material itself has a big expansion and weakness and low ignition temperature and toxic gas emission in case of fire. Its use is limited.

Therefore, in recent years, the structural structure of high-rise and densely concentrated windows and doors also have to increase the strength, less stretch, excellent durability, high ignition temperature of aluminum than conventional PVC, but high thermal conductivity, It has the disadvantage that the heat loss due to convection is large.

In this way, the window wall performance deterioration of the curtain wall is largely due to the large heat loss of the aluminum frame, and the window performance is estimated by the average value of the glass wall and the curtain wall frame. It is possible to supplement by attaching insulation film, but in the case of curtain wall, there is a problem that heat loss occurs in curtain wall frame using aluminum material, and it is urgently needed to compensate for this.

Thus, the use of the material of the curtain wall skeleton as aluminum to reduce the load, aluminum is not only expensive extrusion cost, but also has a problem in absorbing the vertical / horizontal displacement and inter-layer displacement of the building caused by wind and earthquake. .

Therefore, the steel curtain wall is used, but the design is designed to absorb the longitudinal and lateral vibration of the building due to the vertical / horizontal load due to elastic modulus, thermal conductivity, tensile strength, thermal expansion coefficient, melting point, building weight, earthquake and wind load. I'm doing a lot of research on this.

In addition, since the airtightness of the laminated glass mounted on the steel curtain wall is not good, there were many difficulties in preventing insulation or leakage.

In addition, since the insulation box connecting the multilayer glass installed in the steel curtain wall is welded to the steel frame, the insulation installed inside the insulation box is broken (melted) or maintained due to breakage due to heat conduction during welding. There was a problem that can not be.

       The present invention was created in order to solve the above problems, without attaching a heat insulating box formed of aluminum for connecting and supporting the multi-layer glass to the frame made of metal by welding, the heat insulating box and the frame is simply removable. It is intended to prevent the loss of the thermal insulation effect due to melting or breakage of the heat insulating material due to heat conduction during welding by bonding to be integrated and fixed by bonding a metal adhesive to the joint portion.

In addition, an object of the present invention is to form a heat insulating material in the center of the insulating box connected to the frame to block the transmission of the outside temperature to the room.

In addition, the present invention is installed on the one side of the insulating box so that the cover can be detachably detachable and combined, the purpose of the external temperature as well as the beautiful finish of the exterior.

In order to achieve the above object, the present invention is a pair of support frame 10 is formed with a coupling portion 11 is bent at both ends and the c-shaped both ends formed in a rectangular shape; And a heat insulation box frame 20 disposed between the pair of support frames 10, the both sides of which are respectively coupled to the support frame 10 so as to block the external temperature from being transmitted to the room. Box frame 20, the heat insulating material filling hole 22 is formed so that the heat insulating material 30 is inserted in the center to block the outside temperature is transmitted to the room; Hollow parts 23 formed on both sides of the heat insulating material filling hole 22; Support bars 24 formed to protrude from the outer surface of the hollow portion 23 to the upper and lower portions, respectively; A fixed bar 25 connected to the support bar 24 to be bent in parallel with the support bar 24; And an insertion hole 26 formed between the support bar 24 and the fixing bar 25 to insert the coupling part 11, and a metal adhesive on the contact surface of the insertion hole 26 and the coupling part 11. 40 is characterized in that the filling.

In addition, in the present invention, a locking jaw 27 is formed at an end of the support bar 24 protruding in at least one of the upper and lower portions of the hollow part 23, and the support 24 protruding in the remaining direction. The center of the fixing bar 25 is characterized in that the arc-shaped protrusion 70 is formed.

In addition, the present invention is formed in a U-shape, both ends are formed with a locking groove 51 bent in the letter A, the insulating groove so that the locking groove 51 is caught on the locking jaw 27 of the support bar 24 It is characterized in that it further comprises a cover 50 is coupled to the box frame 20 to block the outside air temperature is transmitted to the inside.

In addition, in the present invention, the heat insulating material 30 is characterized in that any one of the azone and polyamide.

In the present invention configured as described above, the insulation of the insulating box made of aluminum and the frame of the frame made of a metal material can be easily bonded together by bonding a metal adhesive so that the multilayer glass can be connected to each other. Can be prevented.

In addition, the present invention can work without using the auxiliary materials, such as welding machines, it is possible to work in a clean and tidy state of the work area can bring about improved work efficiency.

1 is a cross-sectional view showing a state in which the multilayer glass of the present invention is installed.
2 is a cross-sectional view showing a state in which the heat insulation box and the frame of the present invention are combined.
3 is a cross-sectional view showing an insulating box according to the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the coupling structure of the frame and the insulating box according to the present invention will be described in detail, the related art in the description of the present invention may blur the gist of the present invention. If it is determined that detailed description will be omitted.

1 to 3, as is generally known in order to install the multilayer glass 60 in the insulating box 20, the insulating box frame 20 for connecting and supporting the multilayer glass 60. It is disposed between the pair of support frames 10 and both sides are coupled to the support frame 10, respectively.

As described above, a detailed description will be given of a coupling structure of the insulating box frame 20 made of an aluminum material in which the multilayer glass 60 is fixed and the support frame 10 supporting the insulating box frame 20 made of a metal material. When the support frame 10 has a quadrangular c-shaped both ends, a coupling part 11 bent from both ends is formed.

In addition, the insulating box frame 20 coupled with the coupling part 11 of the support frame 10 has a central portion such as an azone (ie, polyurethane) or polyamide so as to block the external temperature from being transmitted to the room. A heat insulating material filling hole 22 into which the heat insulating material 30 is inserted is formed, and hollow portions 23 are formed at both sides of the heat insulating material filling hole 22.

In addition, the outer surface of the hollow portion 23 is formed with a support bar 24 protruding up and down, respectively, fixed bar 25 connected to the support bar 24 and bent in parallel with the support bar 24 ) Is formed, and an insertion hole 26 is formed between the support bar 24 and the fixing bar 25.

At this time, an arc-shaped protrusion 70 is formed at the center of the remaining support bar 24 and the fixed bar 25 except for the support bar 24 coupled to the cover 50 to be described later.

That is, the arc-shaped protrusion 70 is not formed on the support bar 24 coupled to the cover 50, but is formed only on the support bar 24 coupled to the cover 50.

In other words, a locking jaw 27 is formed at an end portion of the support bar 24 coupled to the cover 50, and the support bar 24 not coupled to the cover 50 has an arc-shaped protrusion in the center. 70) is formed.

For example, when the cover 50 is installed at both sides of the insulating box frame 20, all of the support bar 24 is formed with only the locking jaw 27 at the end, the projection 70 is formed in the center It doesn't work.

However, when the cover 50 is installed only on the upper side of the heat insulation box frame 20 as shown in FIG. 2, the support bar 24 protruding upward from both sides of the heat insulation box frame 20 is caught at an end. 27 is formed, and a protrusion 70 is formed at the center of the support bar 24 protruding downward from both sides of the heat insulation box frame 20.

On the other hand, the coupling portion 11 of the support frame 10 is inserted into the insertion hole 26 of the insulation box frame 20, in the state that only the coupling portion 11 is inserted into the insertion hole 26 insulation box frame ( Since the 20 and the support frame 10 are not integrally fixed, the heat insulation box frame is fixed to integrally fix the coupling part 11 of the support frame 10 inserted into the insertion hole 26 of the heat insulation box frame 20. The metal adhesive 40 is bonded to the contact surface of the insertion hole 26 of the 20 and the coupling portion 11 of the support frame 10.

In addition, the c-shaped cover 50 is coupled to one side or both sides of the heat insulation box frame 20 to block the external temperature from being transmitted to the inside.

At this time, both end portions of the c-shaped cover 50 are bent by the letter A so as to be coupled to the engaging jaw 27 formed at the end of the support bar 24 is formed with a locking groove 51 having elasticity.

Referring to the manufacturing method of the embodiment of the present invention configured as described above, as shown in Figure 1, the heat insulating material filling hole 22 formed in the center of the insulating box frame 20 to block the external temperature is first transmitted to the inside Filling the insulation (30).

Then, the coupling part 11 formed in the U-shaped support frame 10 is inserted into the insertion hole 26 formed up and down on both sides of the insulating box frame 20.

At this time, the insertion hole 26 is filled with a metal adhesive 40 so that the insertion hole 26 and the coupling portion 11 are integrally coupled.

Accordingly, the insertion hole 26 and the coupling portion 11 are integrally coupled by the metal adhesive 40.

As described above, when the coupling part 11 is inserted into the insertion hole 26 to couple the support frame 10 and the heat insulation box frame 20 to each other, an arc shape formed at the center of the support bar 24 and the fixing bar 25. By the projections 70 of the insulating box frame 20 will be reinforced the bearing capacity.

On the other hand, when the heat insulating material 30 is filled in the heat insulating material filling hole 22 in the center of the heat insulation box frame 20 is cut off the connection portion of the heat insulating material filling 22 to block the external temperature is transmitted to the inside.

Then, the cover is formed on one side or both sides of the heat insulation box frame 20 so that the engaging groove 51 formed to have elasticity at both ends of the c-shaped cover 50 is coupled to the engaging jaw 27 of the support bar 24. Combine 50.

10.Frame 11.Joint
20. Insulation Box Frame 22. Insulation Filling Hole
23. Hollow section 24. Support bar
25. Fixing Bar 26. Insertion Hole
27. Hanging jaw 30. Insulation
40. Adhesive Metal 50. Cover
60. Laminated Glass 70. Protrusion

Claims (4)

A pair of support frames 10 having a coupling part 11 bent at both ends and formed at both ends of a U-shape formed in a quadrangular shape; And
Is disposed between a pair of support frame 10, and includes a heat insulation box frame 20 is coupled to both sides of the support frame 10 to block the outside temperature is transmitted to the room,
The insulation box frame 20,
Insulation filler 22 is formed so that the heat insulating material 30 is inserted in the center to block the outside temperature is transmitted to the room;
Hollow parts 23 formed on both sides of the heat insulating material filling hole 22;
Support bars 24 formed to protrude from the outer surface of the hollow portion 23 to the upper and lower portions, respectively;
A fixed bar 25 connected to the support bar 24 to be bent in parallel with the support bar 24; And
It is formed between the support bar 24 and the fixed bar 25 includes an insertion hole 26 is inserted into the coupling portion 11,
The coupling structure of the frame and the heat insulation box, characterized in that the metal adhesive 40 is filled in the contact surface of the insertion hole 26 and the coupling portion (11). The method according to claim 1,
A locking jaw 27 is formed at an end of the support bar 24 protruding in at least one of the upper portion and the lower portion of the hollow portion 23, and the support portion 24 and the fixing bar 25 protruding in the remaining directions. The structure of the frame and the heat insulation box, characterized in that formed in the center of the arc-shaped projection (70). The method according to claim 2,
It is formed in a c-shape, the engaging groove 51 bent at the letter 'B' is formed at both ends, the insulating box frame 20 so that the locking groove 51 is caught on the locking jaw 27 of the support bar 24. Coupling structure of the frame and the heat insulation box, characterized in that it further comprises a cover 50 is coupled to the outside to block the outside temperature is transmitted to the inside. The method according to claim 1,
The heat insulating material 30, the structure of the frame and heat insulation box, characterized in that any one of the azone and polyamide.

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