KR102395057B1 - Connector and divided window having the same - Google Patents

Abstract

The present invention provides a connector and an elevation split window including the same.
In the connector of the elevation split window that connects the middle frame provided to partition the vertical frame of the window frame and the elevation of the window frame, the connector of the elevation split window is fixed to the vertical frame and fitted to the intermediate frame Made of synthetic resin material A first connecting member and a second connecting member of a metal material assembled to the first connecting member and fixed to the vertical frame together with the first connecting member and fitted to the intermediate frame.

Description

Connector AND DIVIDED WINDOW HAVING THE SAME

The present invention relates to a connector and an elevation split window including the same, and more particularly, to a connector excellent in load bearing capacity and heat insulation, and an elevation split window including the same.

Elevation split windows are windows in which the elevation of windows is divided using transom or mullion.

1 and 2, the existing elevation split windows are shown. The elevation split window may include a window frame 10 including a vertical frame 12 and a horizontal frame 11 , and a middle bar 20 dividing the elevation of the window frame 10 .

Referring to FIG. 1 , the conventional method of implementing the split windows and doors is a method of coupling the middle bar 20 to the horizontal frame 11 or the vertical frame 12 of the window frame 10 by V-shaped welding. However, in order to perform V-shaped welding, since two or more equipments such as a V-cutting machine and a V-welding machine are required, there is a problem in that the initial investment cost rises, and also there is a disadvantage in that the efficiency is low due to the increase in the number of machining man-hours.

In order to compensate for this disadvantage, a method of applying a connector between the middle bar and the window frame as shown in FIG. 2 is used. The method of assembling such a connector is a method of dividing the elevation by fastening the connector to both ends of the intermediate bar 20 to be assembled and fixing the connector to the window frame 10 . Accordingly, recently, the connector assembly method is mainly used instead of the V-shaped welding method due to the advantages of unnecessary equipment and convenient construction in order to implement an elevation split window.

However, the conventional connector used in this connector assembly method is made of a metal material in order to improve the assembly strength between the intermediate bar and the window frame. However, metal connectors have high strength but high specific gravity and are heavy, which leads to a problem in that transportability and workability are deteriorated.

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a connector that secures excellent thermal insulation performance while maintaining load bearing capacity, and an elevation split window including the same.

In addition, an object of the present invention is to provide a connector that can increase unit price competitiveness of products, reduce weight, and increase packaging and transport convenience, and an elevation split window including the same.

In order to achieve the above object, the connector of the split window and door according to the present invention is the connector of the split window for elevation that connects the intermediate frame provided to partition the vertical frame of the window frame and the elevation of the window frame, and is fixed to the vertical frame and the a first connecting member fitted to the intermediate frame, and a second material assembled to the first connecting member and different from that of the first connecting member, fixed to the vertical frame together with the first connecting member, and and a second connecting member fitted to the intermediate frame.

An elevation split window according to the present invention includes a window frame including a vertical frame and a horizontal frame, an intermediate frame horizontally coupled to the vertical frame to partition the elevation of the window frame, and a connector connecting the vertical frame and the intermediate frame Including, wherein the connector is a first connecting member fixed to the vertical frame and fitted to the intermediate frame; and a second connecting member assembled to the first connecting member and comprising a second material different from that of the first connecting member, fixed to the vertical frame together with the first connecting member, and fitted to the intermediate frame. include

The connector according to the present invention and the elevation split window including the same are made of a composite material in which the first connecting member made of synthetic resin and the second connecting member made of metal are assembled, thereby securing excellent thermal insulation performance while maintaining load bearing capacity.

In addition, the connector according to the present invention can increase the unit price competitiveness of the product, and reduce the weight, thereby increasing the convenience of packaging and transport.

1 is an elevation view and an enlarged view of a conventional V-welding method of an elevation split window.
Figure 2 is an exploded perspective view showing an elevation split window of a conventional connector application method.
Figure 3 is an enlarged perspective view of a part of the elevation split window according to the present invention.
Figure 4 is a top view showing a part of the elevation split window according to the present invention.
5 is a cross-sectional view showing a state in which the connector according to the present invention is installed.
6 is a perspective view showing a connector according to the present invention.
7 is an exploded perspective view of a connector according to the present invention.

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

First, the embodiments described below are embodiments suitable for understanding the technical characteristics of the present invention connector and the elevation split window including the same. However, the present invention is not limited to the embodiments described below, or the technical features of the present invention are not limited by the described embodiments, and various modifications are possible within the technical scope of the present invention.

3 to 6, the elevation split window according to the present invention may include a window frame 10, an intermediate frame 20, and a connector 100.

The window frame 10 may include a vertical frame 12 and a horizontal frame 11 . The vertical frame 12 may include a vertical rail 13 that is disposed to be spaced apart from each other in a direction from the outside to the inside and is formed to be long in the vertical direction.

Both ends of the intermediate frame 20 may be connected to the middle point of the vertical frame 12 , and the elevation of the window frame 10 may be divided into upper and lower portions of the intermediate frame 20 .

The connector 100 may be provided to connect the vertical frame 12 and the intermediate frame 20 . Hereinafter, the connector 100 of the split windows according to the present invention will be described.

4 to 6 , the connector 100 includes a first connecting member 200 and a second connecting member 300 .

The first connecting member 200 may be fixed to the vertical frame 12 and fitted to the intermediate frame 20 . The second connecting member 300 is assembled to the first connecting member 200 and includes a second material different from that of the second connecting member 300 , and a vertical frame 12 together with the first connecting member 200 . It is fixed to the intermediate frame (20) is fitted.

Specifically, the first connecting member 200 and the second connecting member 300 may be fixed to the surface between the vertical rails 13 of the vertical frame 12 , and the hollow provided in the intermediate frame 20 . It is fitted to the part 23 and may be coupled to the intermediate frame 20 . As the first connecting member 200 and the second connecting member 300 are coupled to the vertical frame 12 and the intermediate frame 20 at the same time, the connector 100 is to install the intermediate frame 20 to the vertical frame 12 . can

In addition, the connector 100 may be provided by assembling the first connecting member 200 and the second connecting member 300 . Here, the first connection member 200 may include a synthetic resin material, and the second connection member 300 may include a metal material. And the second connecting member 300 may be provided to be coupled to the intermediate reinforcing material 26 provided inside the intermediate frame (20). That is, the connector 100 according to the present invention may be made of a composite material including a metal material and a synthetic resin material. And the second connecting member 300, which is a portion made of a metal material, may be fastened to the intermediate reinforcing material 26 made of a metal material.

As an example, the first connecting member 200 is a synthetic resin material, such as polycarbonate (PC), polyvinyl chloride (PVC), acrylonitrile-styrene-acrylate (ASA), or polycarbonate/acrylonitrile-styrene-acrylic rubber composite. It may be a material (Polycarbonate Acrylonitrile-Styrene-Acrylrubber, PC ASA), and preferably, a polycarbonate/acrylonitrile-styrene-acrylic rubber composite material may be used.

On the other hand, the second connecting member 300 is a metal material, and may be a metal alloy such as stainless steel, aluminum alloy, or zinc die-casting, preferably zinc die-casting (Zinc Die Casting). Zinc die casting is a casting made by dissolving zinc, applying pressure, and injecting it into a mold. Since it is a metal alloy manufactured by a metal casting process that melts metal by applying high pressure, it has a high strength. However, these metal materials have a large specific gravity and are heavy, and in particular, in the case of zinc die casting, there is a disadvantage in that the process after the die casting process is complicated. There is a problem of weakening price competitiveness. In addition, since it is a metal material, the insulation performance of windows and doors may be deteriorated due to high thermal conductivity.

Accordingly, the connector 100 according to the present invention is provided with a composite material in which the first connecting member 200 made of synthetic resin and the second connecting member 300 made of metal are assembled, thereby maintaining the load bearing capacity of the conventional metallic material. The disadvantages of the prior art can be supplemented. Specifically, since it is made of a composite material of a synthetic resin material and a metal material, the unit price is lowered compared to the unit price of a product made of a metal material (especially zinc die-casting), so that the unit price competitiveness of the product can be increased.

Specifically, the present invention can minimize the heat transferred through the connector 100 by including the connector material together with a synthetic resin material and a metal material. For example, since the thermal conductivity of zinc die-casting is about 113 W/mK and the thermal conductivity of PC ASA is about 22 W/mK, the first connecting member 200 is made of zinc die-casting and the second connecting member 300 is made of PC ASA material. In the case of being made of, the insulation performance can be strengthened compared to a connector made of only a metal material due to different thermal conductivity. In addition, the present invention can reduce the weight compared to the conventional connector 100 made of a metal material, so that packaging and transport convenience can be increased.

However, the material of the first connecting member 200 and the second connecting member 300 of the present invention is not limited to the above materials, and if it is made of a composite material including a synthetic resin material and a metal material having significantly different thermal conductivity, various modifications are carried out is possible

In addition, in the connector 100 according to the present invention, the second connecting member 300 made of a metal material is abutted and coupled with the intermediate reinforcing material 26 inside the intermediate frame 20 , thereby increasing the load bearing capacity of the intermediate frame 20 . can do it

Specifically, referring to FIG. 5 , the intermediate frame 20 includes a body 21 including a hollow part 23 therein, and the hollow part 23 is divided into a plurality of regions, and the intermediate reinforcement 26 is inserted therein. It may include a first hollow 24, which is an area not to be formed, and a second hollow 25, which is an area into which the intermediate reinforcing material 26 is inserted. The intermediate reinforcing material 26 is for improving the strength of windows and doors, and may be made of a metal material (eg, stainless steel, alloy), and is made of a synthetic resin material (eg, PVC material). It can be assembled by being inserted into the second hollow (25). However, the arrangement of the first hollow 24 and the second hollow 25 is not limited to the illustrated embodiment.

A portion of the intermediate frame 20 that receives a load mainly is a portion where the intermediate reinforcement 26 is present. In order for the intermediate frame 20 and the connector 100 to receive a force, the intermediate reinforcement 26 and the connector 100 are fastened. The part to be used is important, and this fastening part can be the main support point to support the load. In addition, in the vertical frame, the vertical reinforcement 15 may be installed to correspond to the position where the intermediate reinforcement 26 is installed.

Accordingly, the present invention secures the structural stability of the windows and doors by fitting the second connecting member 300 made of a metal material into the second hollow 25 and contacting and combining with the intermediate reinforcement 26 to maintain the strength of the windows and doors at equal or higher levels. And, by arranging the first connecting member 200 in a portion other than that, it is possible to compensate for the disadvantages of the metallic connector 100 .

6 and 7 , the first connecting member 200 may include a coupling part 210 and an assembly part 250 . Here, the assembly part 250 and the coupling part 210 may be integrally formed, but the present invention is not limited thereto.

The coupling part 210 includes a fixing plate 220 fixed to the vertical frame 12 and an insertion block 230 extending from the fixing plate 220 to the intermediate frame 20 and fitted into the first hollow 24 . and may be provided in plurality. The assembly part 250 connects between the plurality of coupling parts 210 and is positioned at the position of the second hollow 25 , and the second connection member 300 may be assembled thereto.

Specifically, the coupling part 210 and the assembly part 250 are provided in a combined form, and the surface facing the intermediate frame 20 in the coupled state corresponds to a cross section in a direction perpendicular to the longitudinal direction of the intermediate frame 20 . may be formed into a The coupling part 210 may be disposed between the intermediate rail 22 of the intermediate frame 20 and the vertical rail 13 of the vertical frame 12 , and the assembly part 250 connects the coupling parts 210 to each other. can be provided.

More specifically, the assembly part 250 may be connected between the adjacent insertion blocks 230 and formed in a plate shape. And the assembly part 250 is formed in a shape corresponding to the cross-sectional shape of the through hole 251 through which the second connecting member 300 passes, and the intermediate rail 22 provided in the intermediate frame 20, so that the intermediate rail ( 22) may further include a rail coupling plate 255 coupled to the longitudinal end. One side of the rail coupling plate 255 may be coupled to the intermediate rail 22 and the other side may be coupled to the vertical rail 13 portion of the vertical frame 12 . In addition, the first connecting member 200 may further include a coupling plate 260 coupled to the intermediate rail 22 formed on the outermost or innermost side according to the shape of the intermediate frame 20 .

The fixing plate 220 may be fastened to a surface between the vertical rails 13 of the vertical frame 12 and may include a fixing hole 221 through which a fastening screw or the like is fastened. The insertion block 230 may be integrally formed with the fixing plate 220 and may be formed to have a cross-section corresponding to the cross-section of the first hollow 24 so as to fit into the first hollow 24 of the intermediate frame 20 . there is. The insertion block 230 may include an insertion protrusion 231 protruding from the outer circumferential surface to be stably coupled to the first hollow 24 and formed long in the longitudinal direction of the intermediate frame 20 .

The coupling part 210 may further include a plurality of support plates 240 . The support plate 240 protrudes from the fixing plate 220 in the direction of the intermediate frame 20 , is provided to be spaced apart from the upper and lower portions of the insertion block 230 , and may be coupled to the upper and lower surfaces of the intermediate frame 20 . The insertion block 230 is inserted into the first hollow 24 that is inside the intermediate frame 20 , and the support plate 240 can support the upper and lower surfaces of the intermediate frame 20 (see FIG. 3 ).

Meanwhile, referring to FIGS. 5 to 7 , the second connection member 300 may include a fixing panel 310 , an insertion hole 320 , and a support panel 330 .

The fixing panel 310 is provided to be fixed to the window frame 10 and may penetrate through the fastening hole 311 . The insertion hole 320 extends in a direction from the fixing panel 310 toward the intermediate frame 20 , is fitted into the second hollow 25 , and passes through the through hole 251 provided in the assembly unit 250 to assemble it. can be

Specifically, the fixing panel 310 and the insertion hole 320 may be integrally formed, and the insertion hole 320 may penetrate the through hole 251 of the assembly unit 250 and be inserted into the second hollow 25 . . The cross-sectional shape of the outer peripheral surface of the insertion hole 320 may be formed to correspond to the through hole 251 of the assembly part 250 . The insertion hole 320 may be inserted into the second hollow 25 and inserted into the through hole 251 of the assembly unit 250 to be assembled into the assembly unit 250 .

Here, the assembly part 250 is formed to be elongated in a direction toward the intermediate frame 20, and a pair is provided to be spaced apart from each other and includes a fitting protrusion 252 including a fitting groove 252a that is opened in a direction toward each other. there is. And the insertion hole 320 may further include a coupling protrusion 321 formed long in the longitudinal direction of the intermediate frame 20 so as to be inserted into the fitting groove (252a).

Specifically, the cross section of the fitting protrusion 252 is formed in a 'C' shape to form a long fitting groove 252a in the longitudinal direction of the intermediate frame 20, and the open portions of the fitting groove 252a face each other. can be arranged to do so. And as the coupling protrusion 321 is inserted into the fitting groove 252a, the insertion hole 320 and the assembly part 250 may be assembled. The fitting groove 252a may be provided to communicate and connect with the through hole 251 . The first connecting member 200 and the second connecting member 300 can be stably coupled by the coupling between the fitting groove 252a and the coupling protrusion 321 .

As in the embodiment shown in FIG. 7 , the first connecting member 200 and the second connecting member 300 may be combined with the intermediate frame 20 in an assembled state.

The support panel 330 is provided as a pair so as to protrude from the fixed panel 310 in the direction toward the intermediate frame 20 and to be spaced apart from the upper and lower portions of the insertion hole 320, the upper surface of the intermediate frame 20 and It may be provided to be coupled to the lower surface.

Specifically, in a state in which the insertion hole 320 is inserted into the second hollow 25 , the support panel 330 may support the upper and lower surfaces of the intermediate frame 20 together with the support plate 240 . The coupling force between the second connecting member 300 and the intermediate frame 20 may be strengthened by the support panel 330 .

The second connecting member 300 may be coupled to the intermediate reinforcement 26 through the support panel 330 . That is, at least one of the pair of support panels 330 may further include a fastening groove 331 through which the fastening member S passing through the intermediate frame 20 is fastened. The fastening groove 331 may be provided in plurality, and may be formed to be long in the longitudinal direction of the intermediate frame 20 or to have an open end to absorb assembly tolerance. However, the shape of the fastening groove 331 is not limited to the illustrated embodiment. Since the support panel 330 is coupled to the intermediate reinforcing material 26 and structurally receives a large amount of load, the reinforcing ribs 333 protruding long in the longitudinal direction of the intermediate frame 20 may be formed to reinforce rigidity.

Meanwhile, referring to FIGS. 5 to 7 , the assembly part 250 may further include an assembly protrusion 253 to be stably fitted into the second hollow 25 . The assembly protrusion 253 protrudes in a direction toward the intermediate frame 20 and is provided as a pair, and the surfaces opposite to each other in the direction facing each other are fitted on the inner circumferential surface of the intermediate frame 20 in which the second hollow 25 is formed. can be provided.

Specifically, the assembly protrusion 253 may be formed in a U-shape, may be provided as a pair, and the open portions may be formed to face each other. Here, the assembly protrusion 253 may be provided on the outside of the fitting protrusion 252 . As the assembly protrusion 253 is fitted to the inner circumferential surface of the intermediate frame 20 in which the second hollow 25 is formed, the coupling force between the first connecting member 200 and the intermediate frame 20 may be increased, and accordingly, the second The coupling force between the connecting member 300 and the intermediate frame 20 may also be increased.

The connector according to the present invention and the elevation split window including the same according to the present invention are provided with a composite material in which the first connecting member made of synthetic resin and the second connecting member made of metal are assembled, thereby securing excellent thermal insulation performance while maintaining load bearing capacity. there is.

In addition, the connector according to the present invention can increase the unit price competitiveness of the product, and reduce the weight, thereby increasing the convenience of packaging and transport.

As mentioned above, although specific embodiments of the present invention have been described above, the spirit and scope of the present invention are not limited to these specific embodiments, and those described in the claims by those of ordinary skill in the art to which the present invention pertains Various modifications and variations are possible without changing the gist of the present invention.

10: window frame
11: Horizontal frame
12: vertical frame
13: vertical rail
15: vertical reinforcement
20: middle frame
21: body
22: middle rail
23: hollow
24: first hollow
25: second hollow
26: intermediate reinforcement
100: connector of split elevation window
200: first connecting member
210: coupling part
220: fixed plate
221: fixing hole
230: insert block
231: insertion protrusion
240: support plate
250: assembly part
251: through hole
252: fitting projection
252a: fitting groove
253: assembly projection
255: rail coupling plate
300: second connecting member
310: fixed panel
311: fastening hole
320: insert
321: bonding protrusion
330: support panel
331: fastening groove
333: reinforcement rib
S: fastening member

Claims (8)

In the connector of an elevation split window that connects the vertical frame of the window frame and the intermediate frame provided to partition the elevation of the window frame,
a first connecting member fixed to the vertical frame and made of a synthetic resin material that is fitted to the intermediate frame; and
Doedoe assembled to the first connecting member and fixed to the vertical frame together with the first connecting member, comprising a second connecting member of a metal material fitted to the intermediate frame,
The intermediate frame includes a hollow portion therein, and the hollow portion is divided into a plurality of regions, including a first hollow that is an area in which an intermediate reinforcement is not inserted, and a second hollow that is an area into which the intermediate reinforcement is inserted,
The second connecting member is provided to be coupled to the intermediate reinforcement provided in the second hollow,
The first connecting member may include a plurality of coupling portions including an insertion block fitted into the first hollow; and
Connecting between the plurality of coupling parts, and located in the second hollow position, the assembly part to which the second connection member is assembled; Connector of the elevation split window including a. delete According to claim 1,
The intermediate frame further includes a body including the hollow part therein,
The coupling portion is fixed to the vertical frame and the connector of the elevation split window further comprising a fixing plate extending from the insertion block. 4. The method of claim 3,
The coupling part protrudes in the direction of the intermediate frame from the fixed plate and is provided as a pair to be spaced apart from the upper and lower portions of the insertion block and further comprises a support plate provided to be coupled to the upper and lower surfaces of the intermediate frame. . 5. The method of claim 4,
The assembling unit is formed in a shape corresponding to the cross-sectional shape of the intermediate rail provided in the intermediate frame and further comprises a rail coupling plate coupled to the longitudinal end of the intermediate rail. 4. The method of claim 3,
The second connecting member is
a fixing panel provided to be fixed to the window frame and penetrated through a fastening hole; and
A connector of an elevation split window including an insertion hole extending in a direction from the fixed panel toward the intermediate frame and fitted into the second hollow, and assembled through a through hole provided in the assembling unit. 7. The method of claim 6,
The second connecting member protrudes from the fixing panel in a direction toward the intermediate frame and is provided as a pair to be spaced apart from the upper and lower portions of the insertion hole, and further includes a support panel provided to be coupled to the upper and lower surfaces of the intermediate frame. Connector for the containing elevation split window. a window frame including a vertical frame and a horizontal frame;
an intermediate frame horizontally coupled to the vertical frame to partition the elevation of the window frame; and
A connector connecting the vertical frame and the intermediate frame,
The connector is
a first connecting member fixed to the vertical frame and made of a synthetic resin material that is fitted to the intermediate frame; and
Doedoe assembled to the first connecting member and fixed to the vertical frame together with the first connecting member, comprising a second connecting member of a metal material fitted to the intermediate frame,
The intermediate frame includes a hollow portion therein, and the hollow portion is divided into a plurality of regions, including a first hollow that is an area in which an intermediate reinforcement is not inserted, and a second hollow that is an area into which the intermediate reinforcement is inserted,
The second connecting member is provided to be coupled to the intermediate reinforcement provided in the second hollow,
The first connecting member,
a plurality of coupling parts including an insertion block fitted to the first hollow; and
Connecting between the plurality of coupling parts, and located in the second hollow position, the assembly part to which the second connection member is assembled; Elevation split windows including.

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