KR101356085B1 - Window frame combined structure - Google Patents

Abstract

The present invention is formed to have an inclined end that does not form 45 ° and a vertical end supporting a horizontal or vertical force to support the horizontal force to increase the contact area of the horizontal and vertical frame, and at the same time to increase the stress dispersion ability against external force The frame combining structure, and more specifically, the first inclined end forming the first angle larger than 0 ° and smaller than 45 ° with respect to the first outer surface of the horizontal frame, starting at the vertex where the horizontal frame and the vertical frame meet each other. The first vertical end extending to the second inner side of the vertical frame is cut to the first inner side when the first inclined end is advanced by the width of the vertical frame, while the first inclined end is inclined toward the first inner side. A horizontal frame; An end of the vertical frame is formed by cutting the second inclined end and the second extended end so as to correspond to the first inclined end and the first vertical end, respectively; Configuring the pair of horizontal frames and the pair of vertical frames to correspond to each other; The formation of the inclined end and the horizontal or vertical end disperses the stress due to the load on the window frame or the door frame, and does not cause distortion in the coupling portion against the external force.

Description

Window frame combined structure

The present invention relates to a frame coupling structure of the window frame, in particular to form a conventional frame that is cut and coupled to 45 ° to have an inclined end that does not form a 45 ° and a vertical end supporting a horizontal or vertical force to support horizontal force, It relates to a frame coupling structure of a window frame to increase the contact area of the vertical frame and at the same time to increase the stress dispersion ability against external forces.

As shown in FIG. 1, which is known as Korean Utility Model Publication No. 76-759, as a conventional technology, inserts are formed at a predetermined depth on the outer surface of each side at right angles by cutting inclined at 45 °. The horizontal frame 1 and the vertical frame 2 having the grooves 6 and 7 and the insertion grooves 6 and 7 are inserted into and fixed to the insertion holes 3a or the screw holes 4a. Each one of the cylindrical horizontal fastener (3) and the vertical fastener (4), each of which is inclined at 45 degrees, the insertion hole (3a) and screw holes of the cylindrical horizontal fastener (3) and vertical fastener (4) There is known a corner coupling structure of the window frame for coupling the four corners of the horizontal frame (1) and the vertical frame (2) at right angles with the fastening bolt (5) to (4a).

In the known art, insertion grooves 6 and 7 are formed on outer surfaces of predetermined positions at both ends of the horizontal frame 1 and the vertical frame 2 so that the cylindrical horizontal fasteners 3 and the vertical fasteners 4 are formed. Edges of the horizontal frame (1) and the vertical frame (2) to the fastening bolt (5) through the insertion hole (3a) and the screw hole (4a) of the horizontal fixture (3) and vertical fixture (4) in the inserted state By combining them, it is true that there is an advantage in that the bonding strength is increased to some extent and firmly assembled.

However, the above-described conventional technique firstly includes insertion grooves 6 and 7 for inserting the vertical fasteners 3 and the horizontal fasteners 4 at predetermined positions at both ends of the horizontal frame 1 and the vertical frame 2. There was a problem that the assembling work is cumbersome, because the machining work to be formed, respectively.

Second, both ends of the horizontal frame 1 and the vertical frame 2 are cut out to a predetermined depth to form insertion grooves 6 and 7 at predetermined positions at both ends of the horizontal frame 1 and the vertical frame 2, respectively. There was a problem of lowering the structural strength of the.

Third, the horizontal frame (1) and the vertical frame (2) made of a material consisting of a single body, such as wood to form an insertion groove (6) (7) to the horizontal fixture (3) and vertical fixture inside the insertion groove Although it is easy to insert (4), the window frame made of a material such as synthetic resin or aluminum has a problem in that it is difficult to form the insertion grooves (6) and (7) because a large number of spaces are formed therein in cross section. .

On the other hand, in general, if the window frame is transported in a fully assembled state in a rectangular frame, due to problems in transportation and actual construction, heavy weight must be handled.Therefore, there are many concerns about damage and damage to aggregates due to impacts during transportation.

As a result, problems arise that the bonding strength is lowered.

In addition, if the window frame is transported in a fully assembled state with a rectangular frame body, the volume becomes large, and thus it is impossible to load it on a trick, resulting in increased logistics costs such as transportation costs. Not only can not be used, there is a problem in handling handling operations, such as transport work in moving to the storage position or installation position.

In other words, when the window frame fully assembled in the rectangular frame is transferred to the required place, the construction site has not yet been completed, so the scaffolding for performing other processes is closely installed on the exterior of the building. .

Therefore, when the assembled window frame is to be transported to the place where installation is required, not only the dismantled scaffolding needs to be dismantled, but also the vertical movement to each floor or the horizontal movement to the respective openings are required. There was a problem that the installation cost was increased due to the cumbersome installation work because it had to rely on heavy equipment such as gondola and tower crane.

Accordingly, the present invention has been made in view of the problems of the prior art as described above is formed to have a vertical end to support the horizontal or vertical force supporting the horizontal force and the inclined end does not form a 45 ° conventional frame that is cut and coupled to 45 ° To provide a frame coupling structure of the window frame to increase the contact area of the horizontal, vertical frame.

In addition, another object of the present invention is to form a slanted end and a horizontal or vertical end so that the stress due to the load applied to the window frame or the door frame is dispersed, and no distortion occurs in the coupling portion against the external force.

In addition, another object of the present invention is to insert a reinforcing rod therein to further secure structural stability and to reinforce strength.

In order to achieve the above object, the present invention provides a frame combination structure of the window frame is a pair of horizontal frame and a pair of vertical frames are respectively coupled in a rectangular arrangement for the configuration of the window frame or door frame is installed glass The first inclined end forming the first angle larger than 0 ° and smaller than 45 ° with respect to the first outer surface of the horizontal frame starts at a first vertex where the horizontal frame and the vertical frame meet toward the first inner surface. A horizontal frame formed by cutting the first inclined end to a first inner side while the first inclined end extends to a second inner side of the vertical frame at a first point in which the first inclined end is advanced by the width of the vertical frame; An end of the vertical frame is formed by cutting the second inclined end and the second extended end so as to correspond to the first inclined end and the first vertical end, respectively; It provides a frame coupling structure of the window frame, characterized in that the pair of horizontal frame and a pair of vertical frame are configured to be coupled to each corresponding.

As described above, the present invention increases the contact area of the horizontal and vertical frames by forming an existing frame which is cut and coupled to 45 ° to have an inclined end that does not form 45 ° and a vertical end that supports horizontal or vertical force supporting horizontal force. It is effective to make it.

In addition, by the formation of the inclined end and the horizontal or vertical end, the stress due to the load applied to the window frame or the door frame is dispersed, and there is an effect that the distortion is not generated in the coupling portion against the external force.

In addition, there is an effect to additionally secure the structural stability and reinforcement by inserting a reinforcing rod inside.

1 is a partial view showing a state in which a conventional window frame or door frame is coupled at an angle of 45 °,
Figure 2 is an exploded perspective view showing a frame coupling structure of the window frame according to the present invention,
3 is a front coupling and a partial coupling cross-sectional view of the frame coupling structure of the window frame according to the present invention;
Figure 4 is a front view of a window frame or door frame completed by applying the frame coupling structure of the window frame according to the present invention,
5 is a conceptual diagram showing a support state when the horizontal force, vertical force, external force acting on the completed window frame or door frame,
Figure 6 is an exploded perspective view showing a frame coupling structure of the window frame according to the present invention,
7 is a front coupling and a partial coupling cross-sectional view of the frame coupling structure of the window frame according to the present invention;
8 is a front view of a window frame or door frame completed by applying the frame coupling structure of the window frame according to the present invention,
9 is a conceptual diagram showing a support state when the horizontal force, vertical force, external force acting on the completed window frame or door frame.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

As shown in Figures 2 to 4, the frame coupling structure of the window frame of the present invention is a pair of horizontal frame 10 is coupled in a rectangular arrangement for the configuration of the window frame or door frame is installed glass 200 A frame coupling structure of a window frame is a pair of vertical frame 20 is coupled to each other, the horizontal frame 10 having a first inclined end 12 and the first vertical end 15, and the horizontal frame The frame frame 100A is composed of a vertical frame 20 in which the second inclined end 22 and the second extending end 23 are formed to be coupled to the 10.

First, the first angle θ1 is larger than 0 ° and smaller than 45 ° based on the first outer surface 11 of the horizontal frame 10, and is composed of 0 ° <θ1 <45 °.

The horizontal frame 10 starts at the first vertex 13 where the horizontal frame 10 and the vertical frame 20 meet the first inclined end 12 forming the first angle θ1. It cuts and inclines toward the side surface 14, and is comprised.

That is, the first vertex 13 represents a lower side edge at the end of the horizontal frame 10.

In addition, the first vertical end 15 extending from the first time point 12a in which the first inclined end 12 extends by the width of the vertical frame 20 to the second inner surface 21 of the vertical frame 20. Is cut to the first inner side 14 to form.

In addition, the end of the vertical frame 20 is configured by cutting the second inclined end 22 and the second extended end 23 so as to correspond to the first inclined end 12 and the first vertical end 15, respectively. .

The pair of horizontal frames 10 and a pair of vertical frames 20 are configured to be coupled to each other.

Then, the reinforcing rod 30 is inserted into the horizontal frame 10 except for the portion where the glass 200 is installed in the first vertical end 15.

The reinforcing bar 30 inserted into the vertical frame 20 and the horizontal frame 10 is configured to be coupled with the screw 31.
In more detail, the screw 31 passes through the rail end formed with the rail on the inner side of the vertical frame 20 to the coupling groove 33 of the reinforcing bar 30 fitted into the horizontal frame 10. It is coupled in a spiral fastening manner.
Here, the horizontal frame 10 and the vertical frame 20 has a glass groove in which the glass is fitted on the inner surface in common, the outer surface is formed to be mounted on the window frame, between the inner surface and the outer surface The fitting space is formed to perform a space function to be fitted with the reinforcing bar 30.
That is, the screw 31 is formed along the longitudinal direction of the reinforcement 30 inserted into the horizontal frame 10 while passing through the fitting space after entering the horizontal frame 10 from the outer surface of the vertical frame 20 Spiral fastening to the coupling groove 33 is the reinforcing bar 30 is inserted into the vertical frame 20 and the horizontal frame 10 by the screw 31 is coupled.

As shown in Figure 6 to 8, in another embodiment the present invention is a pair of horizontal frame 10 and a pair of horizontal frame 10 is coupled in a rectangular arrangement for the configuration of the window frame or door frame is installed glass 200 Regarding the frame coupling structure of the window frame that is coupled to each of the vertical frame 20, the vertical frame 20 is composed of a third horizontal end 115 extending to the third inclined end 112, and the vertical frame ( The frame frame 100B is constituted by a horizontal frame 10 having a fourth inclined end 222 and a fourth extended end 223 formed therein so as to be coupled to 20.

First, a second angle θ2 smaller than 90 ° and larger than 45 ° based on the third outer surface 111 of the vertical frame 20 is 45 ° <θ1 <90 °.

The third inclined end 112 forming the second angle θ2 of the vertical frame 20 starts at the third vertex 113 where the horizontal frame 10 and the vertical frame 20 meet each other. It is constructed by cutting so as to be inclined toward the side surface 114.

Here, the third horizontal end 115 extending from the third time point 112a at which the third inclined end 112 proceeds by the height of the horizontal frame 10 to the fourth inner surface 114 of the horizontal frame 10. Is cut to the third inner side 114 to constitute.

In addition, the end of the horizontal frame 10 is configured by cutting the fourth inclined end 222 and the fourth extended end 223 to correspond to the third inclined end 112 and the third horizontal end 115, respectively. .

That is, the pair of horizontal frames 10 and the pair of vertical frames 20 are configured to be coupled to each other.

In addition, the reinforcing bar 30 is inserted into the vertical frame 20 except for the portion where the glass 200 is installed in the third horizontal end 115.

The reinforcing bar 30 inserted into the horizontal frame 10 and the vertical frame 10 is configured to be coupled with the screw 31.
To describe in more detail, the screw 31 is a spiral fastening method in the coupling groove 33 of the reinforcing bar 30 is fitted into the interior of the vertical frame 20 through the rail end formed with the rail of the horizontal frame 10 Are combined.
Here, the horizontal frame 10 and the vertical frame 20 has a glass groove in which the glass is fitted on the inner surface in common, the outer surface is formed to be mounted on the window frame, between the inner surface and the outer surface The fitting space is formed to perform a space function to be fitted with the reinforcing bar 30.
That is, the screw 31 enters the vertical frame 20 from the outer surface of the horizontal frame 10, passes through the fitting space, and extends the longitudinal direction of the reinforcement 30 inserted into the vertical frame 10. Spirally fastened to the coupling groove 33 formed along the reinforcement 30 is inserted into the horizontal frame 10 and the vertical frame 20 by the screw 31 is coupled.

Commonly, the reinforcing bar 30 formed in the frame frames 100A and 100B has a rectangular cross-section having a long cross section.

In addition, the inner side of the reinforcing end 32 of the reinforcing bar 30 is formed to face the fastening groove 33 to which the screw 31 is spirally coupled.

In other words, the screw 31 is inserted into the fastening groove 33 of the reinforcing rod 30 is also coupled to the spiral fastening.

The operation and effect of the present invention constructed as described above will be described below.

2 to 4, when looking at the frame frame 100A, both ends of the horizontal frame 10 have a first angle greater than 0 ° and smaller than 45 ° based on the first outer surface 11. The first inclined end 12 forming θ1) is cut to form.

In addition, the first inclined end 12 is cut to be inclined toward the first inner side 14 starting at the first vertex 13 where the horizontal frame 10 and the vertical frame 20 meet.

Subsequently, the first vertical end 15 extending from the first time point 12a in which the first inclined end 12 extends by the width of the vertical frame 20 to the second inner surface 21 of the vertical frame 20. To the first inner side 14.

On the other hand, the end of the vertical frame 20 is a frame frame by cutting the second inclined end 22 and the second extended end 23 so as to correspond to the first inclined end 12 and the first vertical end 15, respectively. Complete the horizontal frame 10 and the vertical frame 20 used for (100A).

Then, the reinforcing bar 30 is inserted into the horizontal frame 10 except for the portion where the glass 200 is installed in the first vertical end 15 of the horizontal frame 10.

Next, the second inclined end 22 and the second extended end 23 of the vertical frame 20 closely adhere to the first inclined end 12 and the first vertical end 15 of the horizontal frame 10, respectively. Let's do it.

Subsequently, when the screw 31 is inserted into the screw groove 33 at the outside of the vertical frame 20 and the screw is tightened, the reinforcing bar 30 is expanded outward by the volume of the screw 31, thereby increasing the tightening force. There is a feature that allows the stress to be dispersed.

In addition, the glass 200 is inserted between the horizontal frame 10 and the vertical frame 20 coupled to face each other in pairs, wherein the glass 200 is not separated from the horizontal frame 10 of the glass 200. ) And glass support ends 10a and 20a are formed to face each other to form a gap in which the glass 200 is fitted to the first inner side 14 and the second inner side 21 of the vertical frame 20. Glass 200 is inserted into the gap to complete the window or door.

6 to 8, when looking at the frame frame 100B, the second angle θ2 smaller than 90 ° and larger than 45 ° based on the third outer surface 111 of the vertical frame 20 is shown. Cutting to form a third inclined end 112 to form.

At this time, the third inclined end 112 is to be cut to be inclined toward the third inner surface 114 starting from the third vertex 113 where the horizontal frame 10 and the vertical frame 20 meet.

Thereafter, the third horizontal end 115 extends to the fourth inner side 114 of the horizontal frame 10 at the third time point 112a in which the third inclined end 112 is advanced by the height of the horizontal frame 10. Is cut to the third inner side 114.

In addition, the end of the horizontal frame 10 cuts the fourth inclined end 222 and the fourth extended end 223 to correspond to the third inclined end 112 and the third horizontal end 115, respectively.

In addition, the reinforcing rod 30 is inserted into the vertical frame 20 except for the portion where the glass 200 is installed in the third horizontal end 115.

Next, the fourth inclined end 222 and the fourth extended end 223 of the horizontal frame 10 are in close contact with the third inclined end 112 and the third horizontal end 115 of the vertical frame 20, respectively. Let's do it.

Subsequently, when the screw 31 is inserted into the screw groove 33 in the outer side of the horizontal frame 10 and the screw is tightened, the reinforcing bar 30 is expanded outward by the volume of the screw 31, thereby increasing the tightening force. There is a feature that allows the stress to be dispersed.

In addition, the glass 200 is inserted between the horizontal frame 10 and the vertical frame 20 coupled to face each other in pairs, wherein the glass 200 is not separated from the horizontal frame 10 of the glass 200. ) And the glass support ends 10a and 20a are formed to face each other to form a gap in which the glass 200 is fitted into the third inner side 114 and the fourth inner side 221 of the vertical frame 20. Glass 200 is inserted into the gap is fixed to complete the window or door.

As shown in FIG. 5, in the frame frame 100A where the coupling is completed, the second inclined end 22 of the horizontal frame 10 is in close contact with the first inclined end 12 of the vertical frame 20. When the external force acts in the state in which the second extension end 23 is in close contact with the vertical end 15, it is as follows. With a broken line.)

1. When the first horizontal force A acting in the longitudinal direction of the vertical frame 20 is generated, it is supported by the first inclined end 112 and the second inclined end 222 so that the horizontal and vertical frames 10 Dispersion is performed so that the stress is not concentrated between the 20, and the second extension end 223 is in close contact with the first vertical end 115 to prevent rotation of the horizontal frame 10.

2. When the second vertical force B acting in the longitudinal direction of the horizontal frame 10 is generated, it is supported by the first inclined end 12 and the second inclined end 22, the horizontal and vertical frame 10 Dispersion is performed so that the stress is not concentrated between the 20, and the second extension end 23 is in close contact with the first vertical end 15 to prevent rotation of the vertical frame 20.

3. When the external force E is generated in the combined edge direction of the horizontal and vertical frames 10 and 20, the second extension end 23 is supported by the first vertical end 15 so as to have a gap in the coupling part. Does not occur and is not disassembled.

As shown in FIG. 9, in the frame frame 100B where the coupling is completed, the fourth inclined end 222 of the horizontal frame 10 is in close contact with the third inclined end 112 of the vertical frame 20, and the third When the external force acts in a state where the fourth extension end 223 is in close contact with the horizontal end 115, it is as follows. With a broken line.)

1. When the first horizontal force A acting in the longitudinal direction of the horizontal frame 10 is generated, it is supported by the third inclined end 112 and the fourth inclined end 222, the horizontal and vertical frame 10 Dispersion is performed so that the stress is not concentrated between the 20, and the fourth extension end 223 is in close contact with the third horizontal end 115 to prevent rotation of the vertical frame 10.

2. When the second vertical force B acting in the longitudinal direction of the vertical frame 10 is generated, it is supported by the third inclined end 112 and the fourth inclined end 222, the horizontal and vertical frame 10 Dispersion is performed so that the stress is not concentrated between the 20, and the fourth extension end 223 is in close contact with the third horizontal end 115 to prevent rotation of the horizontal frame 20.

3. When the external force E is generated in the combined edge direction of the horizontal and vertical frames 10 and 20, the fourth extension end 223 is supported by the third horizontal end 115 so that a gap is formed in the coupling part. Does not occur and is not disassembled.

Commonly, when an external force is generated to the corner side where the horizontal and vertical frames 10 and 20 are combined to form the frame frames 100A and 100B, the ends of the existing horizontal and vertical frames 10 and 20 are 45 When cut to ˚ it can not support or disperse the external force applied to the corners, but the combined portion of the horizontal, vertical frame 10, 20 dismantled or twisted, but the present invention is horizontal, vertical frame 10 Even if the external force is generated to the edge side to which the 20 is coupled, the inclined end and the vertical and horizontal ends are held in close contact with each other so that the horizontal and vertical frames 10 and 20 are not disassembled or distorted. There is this.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the embodiments set forth herein. Various changes and modifications may be made by those skilled in the art.

10: horizontal frame 10a: glass support end
11: first outer surface 12: the first inclined
θ1: first angle
13: first vertex 14: first inner side
15: first vertical stage 20: vertical frame
20a: glass support 21: second inner side
22: 2nd Squad 23: The 2nd Extension
30: reinforcement 31: screw
32: reinforcement end 33: screw groove
111: third outer side 112: third inclination
θ2: second angle
113: third vertex 114: third inner side
115: third horizontal stage 221: fourth inner surface
222: 4th Instructor 223: 4th Extension
100A, 100B: Frame frame 200: Glass
A: first horizontal force B: first vertical force
C: external force

Claims (4)

In the frame joining structure of the window frame is a pair of horizontal frame 10 and a pair of vertical frame 20 are coupled to each other in a rectangular arrangement for the configuration of a window frame or a door frame is installed glass 200 ,
The first inclined end 12 forming the first angle θ1 larger than 0 ° and smaller than 45 ° with respect to the first outer surface 11 of the horizontal frame 10 may include a horizontal frame 10 and a vertical frame ( A first time point at which the first inclined end 12 is advanced by the width of the vertical frame 20 while cutting the first vertex 13 where the 20 meets and is configured to be inclined toward the first inner surface 14. A horizontal frame 10 formed by cutting the first vertical end 15 extending from the 12a to the second inner side 21 of the vertical frame 20 to the first inner side 14;
An end of the vertical frame 20 cuts the second inclined end 22 and the second extended end 23 so as to correspond to the first inclined end 12 and the first vertical end 15, respectively. ) And then;
Frame combination structure of the window frame, characterized in that the pair of horizontal frame (10) and a pair of vertical frame (20) is configured to be coupled to each corresponding. The method according to claim 1, wherein the reinforcing bar 30 is inserted into the horizontal frame 10 except for the portion where the glass 200 is installed in the first vertical end 15,
The frame coupling structure of the window frame, characterized in that the screw (31) penetrating in the horizontal direction from the outside of the vertical frame 20 is configured to be coupled to the reinforcing rod 30 inserted into the horizontal frame (10). In the frame joining structure of the window frame is a pair of horizontal frame 10 and a pair of vertical frame 20 are coupled to each other in a rectangular arrangement for the configuration of a window frame or a door frame is installed glass 200 ,
Based on the third outer surface 111 of the vertical frame 20, the third inclined end 112 constituting the second angle θ2 smaller than 90 ° and larger than 45 ° may include a horizontal frame 10 and a vertical frame ( A third point of view in which the third inclined end 112 proceeds by the height of the horizontal frame 10 while cutting the first vertex 113 to be inclined toward the third inner side 114 is formed. A vertical frame 20 formed by cutting the third horizontal end 115 extending from the 112a to the fourth inner side 114 of the horizontal frame 10 to the third inner side 114;
An end of the horizontal frame 10 cuts the fourth inclined end 222 and the fourth extended end 223 so as to correspond to the third inclined end 112 and the third horizontal end 115, respectively. ) And then;
Frame combination structure of the window frame, characterized in that the pair of horizontal frame (10) and a pair of vertical frame (20) is configured to be coupled to each corresponding. The method of claim 3, wherein the reinforcing rod 30 is inserted into the vertical frame 20 except for the portion where the glass 200 is installed in the third horizontal end 115,
The frame coupling structure of the window frame, characterized in that the screw (31) penetrating in the vertical direction from the outside of the horizontal frame 10 is configured to be coupled to the reinforcing bar 30 inserted into the vertical frame (20).

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