KR20170055654A

KR20170055654A - the zigzag assembly type structure of window frames as well as window and doors

Info

Publication number: KR20170055654A
Application number: KR1020150158575A
Authority: KR
Inventors: 변광희
Original assignee: 변광희
Priority date: 2015-11-12
Filing date: 2015-11-12
Publication date: 2017-05-22
Also published as: KR101762194B1

Abstract

A window frame (100) according to the present invention comprises: an upper window frame bar (110); The member provided as the side window frame bar 130 is cut into a predetermined length so that the upper window frame groove 110d of the upper window frame bar 110 and the lower window frame groove 120 of the lower window frame bar 120 And 120d are disposed opposite to each other and welded to both ends of the upper and lower window frames 110 and 120. The side window frame bar 130 is welded to both ends of the upper window frame bar 110 and the upper window frame bar 120, The side window frame groove 110d and the side window frame groove 130d are mutually orthogonal to each other and the side window frame bar 130 on the side is welded and assembled with the upper window frame groove 110d and the side window frame groove 130d on the inner side in a mutually orthogonal arrangement And the window frames 200A and 200B include upper window bars 210 and lower window bars 220 and side window bars 230 bent at both sides of the folding step 230a so as to be mutually accommodated in a longitudinally- , One side bent step that is orthogonally projected to the outer side surface of the longitudinal tube structure, and a second bent side which is bent so as to be in contact with the one side bent end, 2 'by assembling a pair of window glass (2; 2') by welding with a rectangular frame having a predetermined size and having an overlapping window bar (240) bent to form a protruding assembly step (240a) 100), it is possible to assemble the components of the bending and assembling windows and the window frame, so that the assembly of the respective members is assembled by the welding method to improve the durability as compared with the assembly of the pieces and the heat welding. And it is a useful invention for enhancing the workability on site assembly.

Description

[0001] The present invention relates to a zigzag assembly type window frame,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a bending-fastening window frame and a window assembly structure, and more particularly to a window frame and a window frame assembly of a stainless steel or galvanized window frame and a window frame, Considering that the durability of wind pressure is low and that it is vulnerable to fire, it is to improve productivity while improving productivity.

A resin chassis having excellent soundproofing properties is a material widely used because of its excellent heat insulating property. However, it has a problem that it can not be used for a fire door or a window of a fire prevention area or a semi-arming area because of low fire resistance.

In addition, window frames and windows made of aluminum chassis are mainly composed of pieces and window frames and windows, which are weak against wind pressure, so that window frames or window frames can not be deformed or damaged when the window frames or window frames are strong during a typhoon.

Therefore, a chassis material according to Document 1 was invented.

[Patent Document 1] Korean Intellectual Property Office Registration Patent Publication (B1) 10-1187101

The chassis material is made of a synthetic resin material having a plurality of cavities along its longitudinal direction, and supports the fireproof plate material. The cavity is formed in a cavity selected from among the cavities so that an inner surface is formed in a direction along the plane of the plate material. And the heat-expandable refractory material is inserted into the refractory material.

However, the chash material disclosed in the following Document 1 has a problem in that a member made of a thermally expandable inorganic material is effective as a fire-retardant resin chassis material, but considering the fact that the manufacturing cost is high and the heat- It can be seen that the window frame or window can not overcome the wind pressure and can not cope with deformation or breakage during a strong typhoon.

[Document 1] KR 10-10-1187101 (B1) 2012.9.24

In view of the above, in the present invention, a window frame and a window made of a high-chassis material and an aluminum material, which are detailed with respect to a bending-assembled window frame and a window assembly structure made of stainless steel or a galvanized window frame bar and windows, The present invention provides a bending and assembling window frame and window frame assembly structure that can improve productivity while improving durability and fire resistance.

In order to achieve the above object, a window frame 100 according to the present invention is provided with an upper window frame 110, a lower window frame 120, and a side window frame bar 130 The upper window frame groove 110d of the upper window frame bar 110 and the lower window frame grooves 120d of the lower window frame 120 are arranged so as to face each other so that the upper window frame bar 110 and the lower window frame 120d, One side sill window bar 130 welded to both ends of the bar 120 is formed such that the upper sill window groove 110d and the side sill window groove 130d on the outdoor side of the upper sill window bar 110 are orthogonal to each other, The side window frame bar 130 welds and assembles the upper window frame groove 110d and the side window frame groove 130d on the indoor side in a mutually orthogonal arrangement,

The windows 200A and 200B include upper window bars 210, lower window bars 220 and side window bars 230 that are bent so that both sides of the folding step 230a are mutually accommodated in a longitudinally- A protruding assembling step 240a formed by bending the protruding assembling step so as to be in contact with the protruding end and then bending the protruding end of the protruding assembling step 240b in a direction perpendicular to the protruding assembling step 240a, (2) is assembled and assembled into a window frame (100) by welding a rectangular window frame (240) having a predetermined size and a folded rectangular window frame The structure provides excellent wind pressure and fire resistance, but assembly of each member is assembled by welding method to enhance durability as compared to assembly of pieces or heat welding. In terms of productivity, it is also provided by cutting bending method. It was so nopilsu.

According to the bending-assembled window frame and window assembly structure according to the present invention, window frames and window frames provided by bending and assembling the window frame bars made of stainless steel or galvanized material are more resistant to wind pressure and fire resistance than window frames and windows made of conventional high- The assembly of each member is advantageous in that it is assembled by a welding method and is more durable than assembly of pieces or heat welding.

Also, in terms of productivity, it is provided by cutting bending method, and it is made possible to improve the workability on site assembly.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an example of a construction state of a bending-assembled window frame and a window assembly structure of the present invention.
Fig. 2 is an assembled perspective view of a sliding door window separated from the window frame of Fig. 1; Fig.
3 is an exploded perspective view of a bending and assembling window frame according to the present invention.
4 is an exploded perspective view of the bending and assembly type window according to the present invention.
5 is a cross-sectional view taken along line A-A 'of FIG. 1 to which an enlarged view of a main portion is added.

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.

FIG. 1 is a view showing a construction example of a bending-assembling type window frame and a window assembling structure according to the present invention. FIG. 1 is a side view of a window frame 100 assembled with sliding doors 200A and 200B having right- and left- Or a galvanized plate material, which is manufactured by taking into consideration the mass production property and considering the convenience of machining and welding and assembling, is a bending-assembling type window frame welded and assembled without using a assembling piece, and a window frame 100 And window frames 200A and 200B.

Hereinafter, the structure of the window frame 100 and the window frames 200A and 200B according to the bending and assembling window frame and window frame assembling structure of the present invention will be described.

2 is an assembled perspective view of a sliding door window separated from the window frame of Fig. The upper window frame bar 110 of the window frame 100 according to the present invention has a bottom member 110c having a predetermined width that is symmetrically bent to the left and right sides of the intermediate member 110e bent at a predetermined interval and height, The side members 110b bent at a predetermined distance apart from each other at both side ends of the bottom member 110c and at least a height of the intermediate member 110e are symmetrically bent on both sides to form two rows of upper sash grooves 110d, The end of the side member 110b is formed by bending a folding step 110a symmetrically toward the intermediate member 110e.

The bending step 120a, the side member 120b, the bottom member 120c, the lower window frame groove 120d, and the intermediate member 120c of the lower window frame 120, which are welded to the upper window frame 110, 120e have the same bending structure, but only the depth of the lower window frame groove 120d is half of the depth of the upper window frame groove 110d.

The outer sill frame 130 according to the present invention has the same height and width as the upper sill 110 and the lower sill 120. The upper and lower sill bars 110, The bottom member 130c is welded and assembled to both ends of both sides of the lower sill 120. The bottom member 130c is formed to be connected to the side sill grooves 130d of the width and depth of the lower sill window 120d, The side member 130d includes a side member 130d and a side member 130d. The side member 130d includes a bent member 130a and a side member 130d.

3 is an exploded perspective view of a bending and assembling window frame according to the present invention.

The window frame assembly using the upper window frame 110, the lower window frame 120, and the side window frame 130, which are structural members of the window frame 100 according to the present invention, is shown in FIG.

The upper window frame groove 110d of the upper window frame bar 110 and the lower window frame groove 120d of the lower window frame 120 are provided so as to face each other.

The upper side window frame 110 and the side window frame bar 130 welded to both ends of both sides of the lower window frame 120 are disposed in the upper window frame groove 110d on the outdoor side of the upper window frame bar 110, And the side window frame grooves 130d are orthogonal to each other and the side window frame bars 130 on the side are welded and assembled to each other in such a manner that the upper window frame grooves 110d and the side window frame grooves 130d are mutually orthogonal.

For reference, as shown in Figs. 1 to 3, the side where the crisscents 5, which are window locking devices, are assembled is the interior side.

Next, an assembly structure of the windows 200A and 200B according to the present invention is as follows.

FIG. 4 is a perspective exploded perspective view of the bending and folding type window according to the present invention, and FIG. 5 is a cross-sectional view taken along the line A-A 'of FIG.

Referring to FIGS. 4 and 5, each of the window members constructed and assembled into the sliding door type windows 200A and 200B according to the present invention is as follows.

The windows 200A and 200B according to the present invention include an upper window bar 210 having a bent C-shaped steel structure having a bent step 210a having a predetermined width and depth inwardly,

A folding step 220b bent at a lower end of the lengthwise side member 220a at a predetermined width and height; And a protruding step 220c, which is formed by bending a first end of the first end 220a and a protruding step 220c of which end is bent at 90 degrees outwardly at right angles to the bending step 220b, A lower window bar 220 having a window bar upper groove 220d,

A side window bar 230 bent on both sides of the bent step 230a so as to be mutually accommodated on the inner side surface of the longitudinal tube structure,

A protruding assembling step 240a formed by bending the protruding assembly 240 in such a manner that the protruding assembly 240 protrudes orthogonally to the outer side surface of the longitudinal tube structure, 200B which is assembled with the pair of glasses 2 and 2 'by welding with a rectangular frame having a predetermined standard.

In order to provide the window bars 200A and 200B with the window members as described above, the overlapped window bars 240 according to the present invention are processed as follows.

The protrusive assembling step 240a of the overlapped part of the window bar 240 cut to a predetermined length according to the standard of the window 200A 200B is cut at a middle part of the protruding assembly step 240a, And the protrusion assembling step 240a of the upper and lower ends of the superimposed part window bar 240 are assembled to the upper window frame groove 110d depth of the upper window frame 110 according to the present invention, And the lower window frame groove 120d of the lower window frame 120 so as to prevent the opening and closing operation in the window frame from being hindered.

For reference, the projecting assembling steps 240a of the overlapping window bars 240 used in the windows 200A and 200B according to the present invention are assembled so as to cross each other.

The window 200A (200B) is assembled before assembling the pair glass 2 & cir & 2 'in which two pairs of glass are closely contacted with each other with a filler such as TiCoOl, The assembling procedure of the above is as follows.

1) a folding step 220b bent at a lower end of the lengthwise side member 220a at a predetermined width and height; And a protruding step 220c, which is formed by bending the upper end to the upper end at the same angle as the bending step 220b and then folding the end at a 90 degree right angle after the first bending at the same height as the bending step 220b, (7) is inserted into the lower groove of the body (220).

2) A side window bar 230 having a contour surface of a bent step 230a, which is bent to be mutually accommodated, is welded and assembled on one end surface in the longitudinal direction of the lower window bar 220, And the lower end of the lower window bar 220 is erected so that the projecting assembling step 240a of the overlapped window bar 240 faces the side window bar 230 and welded to the lower end.

3) The pair of glass pieces 2 and 2 'assembled in advance in the window member assembled in Step 2 is inserted and the upper edge of the pair glass 2 (2') is inserted into the recessed portion of the upper window bar 210 The both side ends of the mutual window bar 210 are closely welded to the side window bar 230 and the superimposed window bar 240 and welded together.

4) The window (2; 2 ') assembled in Step 3 and the silicone (3) are tightly fixed to the window member (200A; 200B) to complete the window.

100: window frame
110: upper window frame 120: lower window frame
130: side window frame bar
200A; 200B: window
210: upper window bar 220: lower window bar
230: side window bar 240: overlap side window bar
1: Pair glass bare bar 2; 2 ': Pair glass
3; 3 ': silicon 4; 4': assembly piece
5: Crescent 6: Crescent ring
7: car

Claims

In a window frame 100 assembled with left and right sliding windows 200A and 200B,
The window frame 100 is formed by symmetrically bending the bottom member 110c having a constant width to the left and right of the intermediate member 110e bent at a predetermined interval and height and horizontally and symmetrically with respect to the bottom member 110c, And the side member 110b bent at an interval equal to or greater than the height of the intermediate member 110e are symmetrically bent on both sides to form two rows of upper window groove grooves 110d and the end of the side member 110b is fixed to the intermediate member 110e An upper window frame bar 110 formed by folding a folding step 110a symmetrically with respect to the upper window frame 110;
The bending step 120a, the side member 120b, the bottom member 120c, the lower window frame groove 120d and the intermediate member 120e of the lower window frame 120 welded to the upper window frame 110, The lower window frame 120 is formed of a half of the depth of the upper window frame groove 110d;
The upper and lower window frame bars 110 and 120 are welded and assembled to both ends of the upper window frame bar 110 and the lower window frame bar 120 with the same height and width as the upper window frame 110 and the lower window frame 120, A bottom member 130c is bent so as to be connected to the side window frame groove 130d having a width and a depth of the lower window frame 120d of the lower window frame 120, And a side member 130d for bending a bent step 130a whose ends are inwardly bent inward at the other side of the side wall frame 130d, The upper window frame groove 110d of the window frame 110 and the lower window frame groove 120d of the lower window frame 120 are disposed opposite to each other and welded to both ends of the upper window frame 110 and the lower window frame 120 The side window frame bar 130 on one side to be assembled is fixed to the upper window frame groove 110d and the side window frame groove 130d on the outdoor side of the upper window frame bar 110, Are mutually orthogonal, the side window frame bar 130 of the back-side is assembled and welded to each other disposed in the indoor-side upper window frame groove (110d) and a side sill groove (130d) which are mutually orthogonal,
The window 200A 200B has a curved C-shaped steel structure having an upper window bar 210 having a bent step 210a having a predetermined width and depth inwardly,
A folding step 220b bent at a lower end of the lengthwise side member 220a at a predetermined width and height; And a protruding step 220c, which is formed by bending the upper end at the upper end to the same width as the bending step 220b and then folding the end at 90 degrees to the outward side, A lower window bar 220 having a window bar upper groove 220d,
A side window bar 230 bent on both sides of the bent step 230a so as to be mutually accommodated on the inner side surface of the longitudinal tube structure,
A protruding assembly step 240a is formed in which one end bent perpendicularly to the outer side surface of the tubular structure in the longitudinal direction and the end folded to be in contact with the one bent end and then bent perpendicularly to the one bent end, (2) is assembled and assembled into a window frame (100) by welding a rectangular window frame (240) having a predetermined size and a folded rectangular window frame rescue.