KR101965188B1 - Insulated metal glass door frame - Google Patents

Abstract

The present invention relates to an insulated metal glass door frame and the objective of the present invention is to realize indoor and outdoor insulation of the insulated metal glass door frame forming a glass door so as to maximize insulation effects by the glass door. According to the present invention, the insulated metal glass door frame comprises: a frame member extruded in a rectangular box shape and having an insulation coupling part formed on one side; a foamed insulation layer attached on the inner surface of the frame member; and an insulation coupler insulating and coupling two frame members to form a door frame. Accordingly, by comprising the frame member forming the insulation coupling part at one side, the foamed insulation layer attached on the inner surface of the frame member, and the insulation coupler insulating and coupling two frame members to form a door frame, it is possible to maximize heat and sound insulation of the inner and outer surfaces of the door frame forming the metal glass door.

Description

Insulated metal glass door frame {Insulated metal glass door frame}

The present invention relates to a heat insulating metal glass door frame, and more particularly, to a metal glass door frame which comprises a frame member extruded in a box shape and a heat insulating binding member for heat- It is an object of the present invention to provide an indoor and outdoor heat insulation of a door frame so as to maximize a heat insulation effect by a glass door.

In general, the glass door is made of transparent glass so that air circulation can be performed inside and outside the building by opening the building, and the outside of the glass door can be secured when it is sealed.

The glass door described above is composed of a glass plate and a door frame for fixing the glass plate.

Such a door frame is extruded with a metal material such as synthetic resin or aluminum.

The door frame has a glass binding part formed on one side thereof so that a glass plate can be bound.

However, the metal door frame of the above-described door frame for a glass door has a high thermal conductivity, so that the outdoor temperature can easily propagate. In the winter, it induces condensation according to the outdoor temperature difference, Thereby causing a cooling loss.

Registration Utility Model 20-0472535

Accordingly, since the metal door frame of the door frame for a glass door as described above has a high thermal conductivity, the outdoor temperature easily spreads, causing condensation according to the difference in temperature outside the room during the winter season, Thereby solving the problem of causing cooling loss.

That is, according to the present invention, there is provided a metal glass door frame, comprising: a frame member extruded in a rectangular box shape and forming an adiabatic binding portion at one side thereof; a foam insulating layer formed on the inner surface of the frame member; And a heat insulating binding groove for forming the heat insulating binding groove.

The present invention is characterized in that a filling binding hole is formed at the center of the heat insulating binding portion of the frame member, the heat insulating binding groove is formed on both sides of the filling binding hole, and the embedding prevention tabs are formed at both ends of the heat insulating binding portion.

The present invention is characterized in that the heat insulating binding means comprises a binding core formed in a plate shape and a filling binding projecting protruding on both sides from the center of the binding core to the filling binding cavity of the frame member, A heat-hardening resin adhesive layer formed on both sides of the fastening core, a heat-hardening resin adhesive layer formed on both sides of the fastening core, And a rubber packing part for forming a cushioning and a tightening force at both ends of the rubber packing part.

Therefore, the present invention provides a heat insulating binding means for forming a door frame by thermally binding two frame members, a foam insulating layer formed on the inner surface of the frame member, It is possible to maximize the heat insulation and sound insulation on the inside and the outside of the door frame.

Further, according to the present invention, since the filler-binding hole and the heat-insulating binding groove are formed in the frame member and the filler-coupling projections and the groove-coupling projections are formed in the corresponding heat-insulating coupling holes, .

In addition, the present invention has the effect of improving the durability of the door frame by preventing the spreading of the heat-insulating frame member by forming the embedment-limiting plate on both sides of the heat insulating binding opening.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an illustration of a process of extruding a frame member according to an embodiment of the present invention. FIG.
FIG. 2 is a view illustrating an example of a process of processing an insulating bonding tool according to an embodiment of the present invention. FIG.
3 is a diagram illustrating an example of a process of filling a foamed foam according to an embodiment of the present invention.
4 is a diagram illustrating an example of a frame member combining process according to an embodiment of the present invention.
5 is an illustration of a packing rolling process according to an embodiment of the present invention.
6 is an illustration of an example of a foam adhesion curing process according to an embodiment of the present invention.
Fig. 7 is a view showing an example of an insulating bonding joint according to an embodiment of the present invention; Fig.

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

The present invention maximizes the heat insulation and sound insulation on the inside and the outside of the door frame forming the metal glass door. The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, It should be construed as meaning and concept consistent with the technical idea of the present invention based on the principle that the concept of a term can be properly defined in order to explain its own invention in the best way.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

That is, the metal glass door frame 1 of the present invention comprises the frame member 10, the foamed heat insulating layer 22, and the heat insulating binding member 30.

Here, the frame member 10 is extrusion-molded in a rectangular box shape so as to form the door frame 1 by mutual engagement, and the heat insulating binding portion is formed on one side thereof.

At the center of the adiabatic binding portion is formed a filling binding hole 11 filled with a foaming lip 21 which penetrates through the hollow portion of the frame member 10 and forms a foaming insulating layer 22, Insulating binding grooves 12 continuously extended in the longitudinal direction so as to increase the heat insulating binding and the binding force to both sides of the filling and bonding hole 11. The heat insulating binding holes 30 are formed at both ends of the heat insulating binding portions 11, The protrusion 13 is formed so as to be stepped inwardly of the outer surface of the frame member 10 so as to support both ends of the frame member 10. [

A packing binding groove 13a is formed in the inner edge of the embossing restrainer 13 so that the rubber packing material of the heat insulating coupling means 30 is thermally cured so that the binding force of the rubber packing portion 37 is increased so as to be filled therein You can.

(11a) protruding from the center so as to engage with the heat insulating coupling means (30) fitted to the inner wall of the filling and coupling hole (11) and having a coupling protrusion formed at the end thereof. It is.

The inner wall of the frame member 10 can be formed by forming the air layer ribs 14 at regular intervals so as to increase the durability and to form the sound insulation air layer between the foam layer 10 and the foam layer.

The air layer ribs 14 may be formed to have a mountain-like shape with the center protruding more toward the central portion on each surface.

The foamed insulation layer 22 is formed by foaming the foamed lips 21 filled through the filling and bonding holes 11 of the frame member 10 during the thermal curing process of the heat insulating binding holes 30.

The foaming lips 21 filled in the filling binding holes 11 are charged to the negative electrode and the foaming lips 21 filled in the frame member 10 are electrically charged to the inner wall of the frame member 10 by electrostatic charging.

In addition, the heat insulating coupling means 30 forms the door frame 1 by thermally bonding the two frame members 10.

The heat insulating coupling means 30 includes a coupling core 31 formed in a plate shape and a filling coupling protrusion 32 protruding on both sides at the center of the coupling core 31 and projecting toward the filling coupling hole 11 of the frame member 10 A groove coupling protrusion 33 protruding from both sides of the filler coupling protrusion 32 to both sides and projecting toward the heat insulating coupling groove 12 of the frame member 10; A thermal expansion resin adhesive layer 36 formed on both sides of the binding core 31 and a thermosetting resin adhesive layer 36 formed on both sides of the binding core 31, And a rubber packing portion 37 for forming a buffering and air tightening force at both ends.

The binding core 31 may be embossed with a perforated plate so as to increase the bonding strength with the thermosetting resin adhesive layer 36. [

The coupling core 31 may be formed of metal or synthetic resin.

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Hereinafter, the manufacturing process of the present invention will be described.

That is, according to the present invention, there is provided a method of manufacturing a metal glass door frame, comprising the steps of: extruding a frame member (100) for extruding a frame member (10) A foaming lip filling process 300 for filling foaming lips 21 into the inside of the frame member 10 by the filling binding holes 11 of the heat insulating binding portions formed on one surface of the frame member 10, A frame member joining process 400 for joining the two frame members 10 with each other with the heat insulating coupling member 30 interposed therebetween; A packing rolling process 500 in which the protruded rubber packing portion 37 is rolled to fill the rubber packing portion 37 and the door frame 1 are put in a heating chamber and heated by the heat of 80 to 150 ° C to form the foam lip 21, And a foam adhesion curing process (600) for foaming the thermosetting resin adhesive and the rubber packing portion (37).

Here, the mold member extrusion process 100 is filled with a foaming lip 21 which is extruded from aluminum and penetrates into the hollow portion of the mold member 10 at the center of the heat insulating binding portion formed on one surface thereof to form the foaming heat insulating layer 22 The heat insulating binding grooves 12 are formed continuously in the longitudinal direction so as to form the filling binding holes 11 to which the heat insulating binding holes 30 are bound and to increase the heat insulating binding and binding force to both sides of the filling binding holes 11. [ And the protruding protrusions 13 are formed at both ends of the heat insulating binding section so as to be stepped inwardly inward of the outer surface of the frame member 10 so as to support both ends of the heat insulating binding opening 30 .

The binding force of the rubber packing part 37 formed by thermally curing the rubber packing material of the heat insulating binding hole 30 is promoted in the inner edge of the embossing restrainer 13 in the frame member extrusion process 100, So that the packing binding groove 13a is formed so as to be immersed and filled therein.

In the practice of the present invention, the mold member extrusion process 100 is protruded and formed so as to be engaged with the heat insulating binding holes 30, which are fitted to the inner wall of the filling binding hole 11, So that the formed embedment-suppression port 11a can be formed.

In the practice of the present invention, the air layer ribs 14 are formed at equal intervals so as to increase the durability of the inner wall of the frame member 10 and form a sound insulating air layer between the foam layer To be formed.

The heat insulating binding joint machining process 200 is for machining the heat insulating binding joint 30 for heat insulating binding of the frame member 10.

The heat insulating binding groove machining process 200 includes a binding core forming process 210 for processing the binding core 31 through extrusion or bending and a rubber molding process for forming a rubber packing portion 37 at both ends of the binding core 31 An adhesive layer forming process 220 for forming a thermosetting resin adhesive layer 36 on both sides of the binding core 31 and the back surface of the rubber packing portion 37 230).

A filling coupling protrusion 32 protruding from both sides of the center of the coupling core 31 and protruding toward the filling coupling hole 11 of the frame member 10 is formed in the coupling core forming process 210, And a groove coupling protrusion 33 protruding from both sides of the protrusion 32 on both sides to protrude toward the heat insulating coupling groove 12 of the mold member 10 is formed, The embossing restraining plate 34 that forms the urging restraining force is formed on the embossing restraining jaws 13 of the first embodiment.

When the binding core 31 is processed by the extrusion in the binding core processing 210, the filling binding projections 32, the groove binding projections 33, and the embedding plates 34 are continuous in the longitudinal direction .

When the fastening core 31 is processed by bending in the binding core processing step 210, the filling fastening protrusions 32, the groove fastening protrusions 33 and the embossing restraining plates 33, which are formed on both sides of the fastening core 31, 34 can be formed so that both sides are formed in a zigzag fashion.

In the binding core processing step 210, the binding core 31 is formed of a perforated plate to increase the binding force.

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Hereinafter, the operation and effect of the application of the present invention will be described.

As described above, the mold member extrusion process 100, the heat insulating bonding process 200, the foam lub filling process 300, the mold member joining process 400, the packing rolling process 500, and the foam adhesion curing process 600 The heat insulating metal glass door frame 1 of the present invention composed of the frame member 10, the foam insulating layer 22 and the heat insulating binding member 30 is applied through the through-hole 10, the door frame 1, And two frame members 10 bounded by the frame member 30 so that the indoor and outdoor heat differences are clearly formed.

In addition, the heat-insulating foam layer formed by foaming the foaming lips 21 on the inner wall of the frame member 10 maximizes the heat insulation effect and cuts off the noise transmission through heat insulation and attenuation of sound.

In addition, the heat-insulating foam layer filled in the frame member 10 suppresses the external shock, thereby minimizing noise during the application process to the window.

Further, the present invention is to provide airtightness and heat insulation between the rubber packing formed at both ends of the frame member 10 and the window frame, which are provided at both ends of the heat insulating binding member 30.

1: Door frame
10:
11: Bonding ball 11a: Bonding ball
12: Insulating fastening groove
13: a protrusion 13a: a packing binding groove 14: an air layer rib
21: foaming lip 22: foaming insulating layer
30: Insulating joint
31: bonding core 32: filling bonding protrusion
33: groove coupling projections 34:
36: thermosetting resin adhesive layer 37: rubber packing part
100: Extrusion process of frame member
200: Insulation joint processing process
210: Coupled Core Machining Process 220: Rubber Packing Process
230: Process of forming adhesive layer
300: foam lubrication process
400: frame member joining process
500: Packing rolling process
600: Foam adhesion hardening process

Claims (3)

1. A metal glass door frame (1), comprising:
A foamed insulation layer 22 formed on the inner surface of the frame member 10 by extrusion bonding the two frame members 10 by extruding the frame member 10 in a rectangular box shape and forming an adiabatic binding unit on one side, (30) for forming the heat insulating binding member (1);
A filler coupling hole 11 is formed at the center of the heat insulating coupling portion of the frame member 10 so that the heat insulating coupling grooves 12 are formed on both sides of the filler coupling hole 11, (13);
The heat insulating coupling means 30 includes a coupling core 31 formed in a plate shape and a filling coupling protrusion 32 projecting from both sides of the coupling core 31 at the center of the coupling core 31 and projecting toward the filling coupling hole 11 of the frame member 10 A groove coupling protrusion 33 protruding from both sides of the filler coupling protrusion 32 to both sides and projecting toward the heat insulating coupling groove 12 of the frame member 10; A thermal expansion resin adhesive layer 36 formed on both sides of the binding core 31 and a thermosetting resin adhesive layer 36 formed on both sides of the binding core 31, And a rubber packing portion (37) formed at both ends to form a buffering and air tightening force.
A method of manufacturing a metal glass door frame comprising:
A method of manufacturing a heat insulating binding joint according to an embodiment of the present invention includes a mold member extrusion process 100 for extruding a mold member 10 and an adiabatic bonding groove machining process 200 for processing the heat insulating binding hole 30, A foam liquefying process 300 for filling the foam lips 21 into the interior of the frame member 10 with the foam lips 11 and the foam lips 21 between the two foam members 10 filled with the foam lips 21, And a rubber packing part 37 protruding outside the door frame 1 formed by joining of the frame member 10 is rolled to form a rubber packing part 37 and the door frame 1 are placed in a heating chamber and heated by heating at 80 to 150 ° C to foam the foamed lips 21 and to cure the rubber packing portions 37. [ (600);
The mold member extrusion process 100 is a process of extruding aluminum to fill the foam lips 21 that penetrate through the hollow portion of the mold member 10 at the center of the heat insulating binding portion formed on one surface and form the foam insulating layer 22, The heat insulating binding groove 12 formed continuously in the longitudinal direction so as to form the filling binding hole 11 to which the sphere 30 is bound and to increase the heat insulating binding and binding force to both sides of the filling binding hole 11 And a protruding protrusion 13 is formed at both ends of the heat insulating binding section so as to be stepped inwardly inwardly of the outer surface of the mold member 10 so as to support both ends of the heat insulating binding opening 30. [ Wherein the door frame is made of a metal. 3. The method of claim 2,
The heat insulating binding groove machining process 200 includes a binding core forming process 210 for processing the binding core 31 through extrusion or bending and a rubber molding process for forming a rubber packing portion 37 at both ends of the binding core 31 An adhesive layer forming process 220 for forming a thermosetting resin adhesive layer 36 on both sides of the binding core 31 and the back surface of the rubber packing portion 37 230);
A filling coupling protrusion 32 protruding from both sides of the center of the coupling core 31 and protruding toward the filling coupling hole 11 of the frame member 10 is formed in the coupling core forming process 210, And a groove coupling protrusion 33 protruding from both sides of the protrusion 32 on both sides to protrude toward the heat insulating coupling groove 12 of the mold member 10 is formed, (20) to form a bulging suppressing plate (34) for forming a bulging suppressing force with respect to the bulging suppressing jaw (13)
When the binding core 31 is processed by extrusion in the binding core processing step 210, the filling binding projections 32, the groove coupling projections 33 and the embedment suppression plates 34 are continuous in the longitudinal direction Wherein the door frame is made of a metal.

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