KR20160113780A - Connecting structure of window frame - Google Patents

Abstract

The present invention provides a connecting structure of a window frame, which inserts a connecting member between an inside and an outside frame made of one among wood, wood plastic composite, synthetic resin and aluminum and couples the frames to the connecting member integrally in a knurled manner to prevent a dew condensation and to drastically enhance insulation performance as well as to make a coupling work convenient and to strengthen coupling force. The connecting structure of the window frame according to the present invention comprises: an inside and an outside frame which form protrusion parts protruding inward or outward from central portions of one side surfaces in a longitudinal direction respectively, form protrusions in an upper part and a lower part on tip ends of the protrusion parts, and are arranged on the inside and the outside respectively when assembled; and the connecting member made of aluminum and arranged between the inside frame and the outside frame when assembled, wherein the inside and the outside frame are integrally coupled to the connecting member in a knurled manner.

Description

Connecting structure of window frame < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a window frame connecting structure, and more particularly, to a window frame connecting structure for connecting a window frame connecting structure between an indoor side and an outdoor side frame made of any one of wood, synthetic wood, synthetic resin and aluminum, The present invention relates to a connection structure of a window frame capable of preventing a condensation phenomenon and enhancing a heat insulation performance by fastening and joining by a knurling method.

Conventional window frames are made of aluminum, which is a metal having excellent thermal conductivity and gloss. Especially in winter, when the temperature difference between the indoor and the outdoor is severe, the metal frame is corroded and partially corroded, Or the water flows down on the wall, thereby reducing the appearance and durability of the frame, and eventually replacing the frame early. In order to improve soundproofing and insulation, double windows were installed with windows spaced outward and inward with respect to these problems. Aluminum has excellent durability and strength, and can produce various colors of frames. However, There is a problem that the heat insulating function is low due to the high thermal conductivity of the material.

In order to solve the problem of this material, a technique of preventing the condensation phenomenon by using a frame made of a synthetic resin (PVC material) such as "Synthetic resin assembly window" of Utility Model Registration No. 149614 by suppressing the heat conduction to the outside as much as possible has appeared. However, the PVC window made of synthetic resin has the advantage of complementing the defects of aluminum, but the strength is very low compared to the aluminum window, and there is a problem that separate finishing is required due to uniformity of colors.

In order to compensate for the drawbacks of aluminum window and PVC window, there has been a technique in which aluminum and synthetic resin frame are arranged on the outside and inside, respectively, and these are assembled into one frame. For example, Patent No. 916993 entitled "Dual Window Insulation Composite Window", Patent No. 946306 "Insulation Composite Window", Patent No. 1295247 "Composite Window", Patent No. 1387318 "Composite window having a release frame structure Device assembly structure ".

However, all of the frames of the composite window that have appeared so far have aluminum materials disposed on the outdoor side and synthetic resin materials disposed on the indoor side, and these materials are bonded with an adhesive (bond), so the time passes and the condensation phenomenon is repeated, So that aluminum and synthetic resin are separated from each other. In addition, when assembling aluminum and synthetic resin into pieces, it takes a lot of time to fasten the pieces, and as the time passes, the engagement force of the pieces weakens, so that the joined frames are spaced apart or the pieces fall off and the frame itself shakes there is a problem.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a method of manufacturing a connecting member between an indoor side and an outdoor side frame made of any one of wood, synthetic wood (WPC), synthetic resin, To provide a connection structure of a window frame in which a coupling operation is very easy and a coupling force is strong as well as a condensation phenomenon can be prevented and a heat insulation performance can be remarkably improved by integrally joining a frame and a coupling member in a nulling manner will be.

In order to solve the above problems, a window frame connection structure according to the present invention is characterized in that a projecting portion protruding toward the outdoor side is formed along a longitudinal direction at a central portion of one side surface, and an upper portion and a lower portion of a projecting portion An inner side frame to be disposed on the indoor side at the time of assembly; An outdoor side frame which is formed at a central portion of one side surface with a protruding portion protruding toward the indoor side along the longitudinal direction and having protruding protrusions formed at the upper and lower ends of the protruding portion, A joint body protruding from an upper end and a lower end of both sides of the body toward the interior side and the exterior side and protruding from each other and made of aluminum, And the joint between the protruding jaws of the indoor side and the outdoor side frame and the coupling member are integrally joined together by a knurling method.

According to the second embodiment of the window frame connection structure of the present invention, the protruding portion protruding toward the outdoor side is formed along the longitudinal direction in the center portion of one side surface, and protruding protrusions are formed on the upper and lower ends of the protruding portion, respectively An indoor side frame to be disposed on the indoor side when assembled; An outdoor side frame which is formed at a central portion of one side surface with a protruding portion protruding toward the indoor side along the longitudinal direction and having protruding protrusions formed at the upper and lower ends of the protruding portion, And a connection member that is disposed between the indoor side frame and the outdoor side frame when assembled and is constructed by integrally inserting a heat insulating material between an indoor side and an outdoor side body made of aluminum, And the coupling protrusions provided on the coupling member are integrally joined to each other by a knurling method.

According to a third embodiment of the window frame connection structure of the present invention, a projecting portion protruding toward the outdoor side is formed along the longitudinal direction in a central portion of one side surface, and protruding protrusions are formed on the upper and lower ends of the protruding portion, respectively An indoor side frame to be disposed on the indoor side when assembled; A connecting projection protruding from the central portion of one side of the main body in the longitudinal direction toward the interior side and having a rectangular hollow shape in cross section; And an outdoor side frame which is formed of aluminum and is arranged on the outdoor side at the time of assembling, and is provided with an engagement protrusion formed at a front end of a portion protruding toward the indoor side at the upper side and the lower side of the indoor side, And the engagement projections of the projections of the outdoor side frame and the engagement projections of the outdoor side frame are integrally joined by a knurling method.

Preferably, in the third embodiment, a recess is formed in the upper and lower portions of the portion where the projecting portion is formed in the inner side frame along the longitudinal direction, and the heat insulating member is sandwiched along the longitudinal direction so as to cover the projecting portion, And the heat insulating member is inserted between the inner side frame and the outdoor side frame when the protruding jaws of the indoor side frame and the coupling protrusion of the outdoor side frame are engaged.

The window frame connection structure according to the present invention having the above features is manufactured by manufacturing the frame from any one material of wood, synthetic wood, synthetic resin, and aluminum, separating the indoor side and the outdoor side frame, Since the joints are inserted and joined together, it is possible to produce various designs according to the user's demand by making the materials of the indoor side and the outdoor side frame different in color and color.

Further, since the window frame connection structure according to the present invention is integrally coupled with the coupling material, the coupling method of the indoor side and the outdoor side frame is integrally combined by a knurling method in which the coupling is automatically performed by a machine, the frame fastening operation is very easy Fast, and very strong in bonding strength, so the frame can not be separated under any circumstances.

In addition, the window frame connection structure according to the present invention can include a heat insulating material in the connecting member inserted between the indoor side and the outdoor side frame, and the indoor side and the outdoor side can be made of a releasing material so that the heat insulating performance of the window frame is remarkably improved Thereby enhancing the energy efficiency grade of the window, preventing condensation, and preventing the wood from rotting even when the frame is made of wood.

1 is a view showing a window to which a window frame connection structure of the present invention is applied.
2 is an assembled view and an exploded view showing a first embodiment of a window frame connection structure.
3 is an assembly view and an exploded view showing a modified configuration of the first embodiment.
4 is an assembled view and an exploded view showing a second embodiment of a window frame connection structure.
5 is an assembly view and an exploded view showing a modified configuration of the second embodiment.
6 is an assembled view and an exploded view showing a third embodiment of the window frame connection structure.

The most significant technical feature of the window frame connecting structure according to the present invention is that the connecting member is inserted between the prepared indoor side and outdoor side frames and the frame and the connecting members are integrally joined to each other in a nulling manner, And the inner side and the outdoor side frames are made of a releasing material and the heat insulating material is inserted into the connecting material, thereby preventing the condensation phenomenon and significantly improving the heat insulating performance.

The first embodiment of the window frame connection structure will be described with reference to Fig. 2. In the first embodiment, the connection member 13 is inserted between the indoor side frame 11, the outdoor side frame 12 and both frames, The frame and the connecting member are joined together by a knurling method. The glass 40 is put in the space between the indoor side frame 11 and the outdoor side frame 12 and the glass is put on the upper part of the connecting material 13 to assemble the window.

The inner side frame 11 is disposed on the indoor side when assembled. The inner side frame 11 has a protrusion 111 protruding toward the outdoor side along the longitudinal direction at a central portion of one side, And a projecting step 112 is formed at the lower part. The outdoor side frame 12 also has the same structure as the indoor side frame 11, but only the direction in which the projecting portions 121 are formed faces the indoor side.

The connecting member 13 is made of aluminum and disposed between the inner side frame 11 and the outdoor side frame 12 when assembled. The connecting member 13 has a body 131 having a rectangular cross- And a coupling protrusion 132 protrudes from the upper and lower ends of the main body 131 toward the indoor side and the outdoor side, respectively. The protruding protrusions 112 and 122 of the indoor and outdoor frames and the coupling protrusion 132 of the coupling member are integrally combined by a knurling method. Since the knurling method is a method of automatically and integrally joining by a machine The fastening and fastening operation of the frame is easy and fast, and the bonding force is very strong, so that the frame can not be separated under any circumstances.

The main body 131 'of the connecting member 13' may be formed in a plate shape instead of a hollow square shape as shown in FIG. 3. In this case, A side plate 133 'having a plate-like shape vertically arranged along the longitudinal direction for fastening with the protrusions 111 and 121 of the side plate 133' is provided at the tip of the portion protruding outwardly from the upper and lower ends of the side plate 133 ' The coupling protrusions 132 'are formed. The remaining parts are the same as those shown in Fig. 2, and thus duplicate explanations are omitted.

The indoor side frame 11 and the outdoor side frame 12 are made of any one of wood, synthetic plastic (WPC), synthetic resin, and aluminum, and both sides are made of the same material Or may be manufactured by changing the materials of the indoor and outdoor sides.

The second embodiment of the window frame connection structure will be described with reference to FIG. 4. The second embodiment is the same as the first embodiment, except that the structure of the connection member 23 is different from that of the first embodiment. Omit and explain only the parts that are different.

The connecting member 23 of the second embodiment is disposed between the inner side frame 21 and the outdoor side frame 22 at the time of assembling the connecting member 23 between the indoor side and outdoor side body made of aluminum, Are inserted and integrally combined. Each of the interior side and outdoor side bodies of the connecting member 23 includes a plate-like body plate 231 disposed along the longitudinal direction, And a pair of heat insulating member engaging portions 233 protruding from the opposite side surfaces of the body plate 231 on the opposite side of which the engaging protruding portions 232 are formed, , And the heat insulating material 234 is inserted between the indoor side main body and the heat insulating material engaging portion 233 of the outdoor side body to be integrally formed.

As shown in the exploded view of FIG. 4, the connecting member 23 is integrally made of aluminum with a part of the upper part thereof opened along the central portion in the longitudinal direction, and the liquid resin is injected through the open part, (The opposite surface of the upper open portion) along the longitudinal direction is cut by a cutting means such as a saw in a state in which the heat insulating material made of resin and the indoor side and outdoor side body are integrated, (23) in which aluminum and a heat insulating material such as an assembling tile are integrated (hereinafter referred to as 'azone insulating method').

The connecting member 23 in which the aluminum and the heat insulating material are integrated is disposed between the interior side frame 21 and the outdoor side frame 22 in such a manner that the protrusions 212 and 222 of the indoor side and outdoor side frames And the projections 232 are integrally joined together by a knurling method to form a frame.

The heat insulating material provided in the connecting material may be a polyamide insulating method instead of the azon insulating method (see FIG. 4). In the polyamide insulation system, as shown in FIG. 5, a heat insulating material 234 'previously made of a resin is placed between a pair of body plates 231' made of aluminum, (23 '). At this time, the coupling protrusions 232 'and the heat insulating material engaging portions 233' should be formed at the ends of the protruding portions inward and outward along the longitudinal direction at the upper and lower ends of the main plate 231 '. The remaining portions are the same as those shown in Fig. 4, and thus duplicate explanations are omitted.

The third embodiment of the window frame connection structure will be described with reference to Fig. 6. The inner frame 31 of the third embodiment is the same as the inner frame of the first and second embodiments, Only the outdoor side frame 32 will be described.

The outdoor side frame 32 of the third embodiment is made of aluminum and includes a body 321 having a rectangular hollow or plate shape, A connecting projecting portion 322 having a rectangular cross-section or a plate-like shape protruding toward the inside and a projecting portion 322 projecting toward the interior side from the upper and lower ends of the connecting projection 322, And a coupling protruding portion 323 formed on the coupling protrusion 323. Although not shown, a side plate having a coupling protrusion at its tip end should be formed when the coupling protrusion 322 is in the form of a plate, and only one of the main body and the coupling protrusion may have a plate shape and the other portion may have a hollow rectangular shape.

The outdoor side frame 32 of the third embodiment is similar in construction to the outdoor side frame and the connecting member in the first and second embodiments. The projections 312 of the indoor side frame and the engagement protrusions 323 are integrally joined by a knurling method.

The third embodiment is constructed by inserting a heat insulating member 33 such as resin between the inner side frame 31 and the outdoor side frame 32 to improve the heat insulating performance It is possible. When inserting the heat insulating member 33, recesses 313 are preferably formed in the upper and lower portions of the inner frame 31 where the protrusions 311 are formed along the longitudinal direction. The heat insulating member 33 is inserted in the longitudinal direction so as to extend over the protruding portion 311 and the protruding protrusion 312 and the groove 313 so that the protruding protrusion 312 of the indoor side frame and the engagement protrusion 323 are connected in a knurling manner, a heat insulating member 33 is inserted between the inner side frame 31 and the outdoor side frame 32.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention. Various modifications and variations will be possible without departing from the spirit of the invention. Therefore, the scope of the present invention should be construed as being covered by the scope of the appended claims, and technical scope within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

10: Window frame (1 embodiment) 11: Indoor side frame
111: protrusion 112: protruding jaw
12: outdoor side frame 121:
122: protruding jaws 13, 13 ': connecting member
131, 131 ': main body 132, 132': engaging projection
20: window frame (2 embodiment) 21: indoor side frame
211: protrusion 212: protruding jaw
22: outdoor side frame 221:
222: protruding jaw 23, 23 ': connecting member
231, 231 ': Body plate 232, 232': Coupling protrusion
233, 233 ': Insulation joining parts 234, 234': Insulation
30: window frame (3 embodiment) 31: indoor frame
311: protrusion 312: protruding jaw
313: groove 32: outdoor side frame
321: main body 322: connecting projection
323: joint projecting portion 33:
40: Glass

Claims (7)

A protruding portion protruding toward the outdoor side is formed in the central portion of the one side surface along the longitudinal direction, and a protruding portion protruding from the upper side and the lower portion of the protruding portion is formed on the inner side frame;
An outdoor side frame which is disposed on the outdoor side at the time of assembly and has a protruding portion protruding toward the indoor side along the longitudinal direction at a center portion of one side surface and having protruding ridges formed respectively at the upper and lower ends of the protruding portion;
A body having a rectangular cross section and being disposed between the indoor side frame and the outdoor side side frame when assembled; A connecting member made of aluminum and having an additional protrusion formed thereon;
Wherein the projecting jaws of the indoor side and the outdoor side frames are integrally joined to each other by a knurling method.
A protruding portion protruding toward the outdoor side is formed in the central portion of the one side surface along the longitudinal direction, and a protruding portion protruding from the upper side and the lower portion of the protruding portion is formed on the inner side frame;
An outdoor side frame which is disposed on the outdoor side at the time of assembly and has a protruding portion protruding toward the indoor side along the longitudinal direction at a center portion of one side surface and having protruding ridges formed respectively at the upper and lower ends of the protruding portion;
A connecting member formed integrally with the heat insulating material between the indoor side and the outdoor side body made of aluminum and disposed between the indoor side frame and the outdoor side side frame when assembled;
Wherein each of the indoor side and outdoor side main bodies of the connecting member comprises:
A plate-like body plate disposed along the longitudinal direction;
A coupling protrusion formed at the tip of a portion protruding outward along the longitudinal direction at an upper end and a lower end of the main plate;
A pair of heat insulating member engaging portions formed on the opposite side surfaces of the body plate,
And the heat insulating material is inserted between the indoor side body and the heat insulating material joined portion of the outdoor side body to be integrally formed,
Wherein the projecting jaws of the indoor side and the outdoor side frames are integrally joined to each other by a knurling method.
A protruding portion protruding toward the outdoor side is formed in the central portion of the one side surface along the longitudinal direction, and a protruding portion protruding from the upper side and the lower portion of the protruding portion is formed on the inner side frame;
A connecting projection protruding from the central portion of one side of the main body in the longitudinal direction toward the interior side and having a rectangular hollow shape in cross section; An outdoor side frame formed of aluminum and disposed on the outdoor side during assembly; and an outdoor side frame disposed on the side of the outdoor side frame.
Wherein the projecting jaws of the indoor side frames and the joints of the outdoor side frames are integrally joined by a knurling method.
3. The method according to claim 1 or 2,
Wherein the indoor side frame and the outdoor side frame are made of any one of wood, synthetic wood (WPC), synthetic resin, and aluminum.
The method of claim 3,
A recess is formed in the upper and lower portions of the portion where the protrusion is formed in the indoor side frame along the longitudinal direction,
The heat insulating member is sandwiched along the longitudinal direction so as to cover the protruding portion, the protruding step and the groove, so that when the projecting protrusion of the indoor side frame and the engagement protrusion of the outdoor side frame are engaged, So that the window frame can be inserted into the window frame.
The method according to claim 1,
The connecting member includes: a plate-shaped main body disposed along the longitudinal direction; a side plate vertically disposed on the both ends of the main body in the longitudinal direction along the longitudinal direction; and at the top end of the portion protruding outward from the top and bottom ends of the side plate, And a coupling protrusion formed on an outer surface of the window frame.
The method of claim 3,
The outdoor side frame includes a plate-like body vertically disposed along the longitudinal direction, a connecting protrusion formed in a plate shape and protruding toward the interior side along a longitudinal direction at a central portion of one side of the body, And a coupling protrusion formed at a front end of a portion protruding toward the indoor side from an upper end and a lower end of the side plate, respectively.

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