KR100720135B1 - A window frame of storm window structure - Google Patents

Abstract

The present invention relates to a window frame of a double-window structure, the outer window is composed of a window frame and a glass window fixing frame and a glass window, the inner window is applied to the structure of the sliding window using the packing for the glass window guide. By using the aluminum chassis or the high chassis (PVC) structure with the inner and outer sides as a unit, it provides a thinner window frame structure than the existing double window structure, and also prevents the noise through the window structure without the gap between the inside and the window guide packing. The purpose is to improve the effect of heating and cooling. The present invention configured for this purpose is a plurality of outer guide rails formed at regular intervals so that the upper and lower sides to the outside of the inner surface; A plurality of inner guide grooves formed by a plurality of inner guide rails formed at predetermined intervals so that the upper and lower sides correspond to each other inside the inner surface; And a window guide packing that prevents the flow of the glass window and prevents noise during sliding back and forth when the glass window is fitted on the inner guide groove so as to be slidably coupled to the window frame, but the glass is fixed to the outer guide rail. The glass window fixing frame is slidably coupled to the outer guide rail, and the glass window is slidably coupled to the packing for the glass window guide fitted into the inner guide groove to form a double window.

Double glazing, Windows, Aluminum chassis, High chassis, Window frame

Description

Double window structure {A window frame of storm window structure}

1 is a perspective view showing a window frame of a double window structure according to the present invention.

Figure 2 is a front view showing a window frame of a double glazing structure according to the present invention.

Figure 3 is a vertical cross-sectional view showing a window frame of the double-window structure according to the present invention.

Figure 4 is a left-right coupling cross-sectional view showing a window frame of a double window structure according to the present invention.

Figure 5 is a vertical cross-sectional view of the sliding window to remove the sliding window pane of the double-window structure according to the invention.
Figure 6 is a cross-sectional view showing a drainage hole in the window frame of the double glazing structure according to the present invention
Figure 7 is a perspective view showing the packing for the glass window guide applied to the window frame of the double glazing structure according to the present invention.
<Explanation of symbols for main parts of drawing>
1, 2, 3. Vertical drainage holes 4, 5. Horizontal drainage holes
132. Outer guide rail 134. Window fixing frame
140. Glass window 142. Inner guide rail
142a, 142b. Guide groove 160. Packing for the guide
162. Coupling Retention Surface 164. Guide Face

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The present invention relates to a window frame of a double-window structure, and more particularly to a double-window structure of a double-window structure structure of a double window frame of a general house, a multi-family house and other buildings, but more effective in preventing noise and heating and cooling.

In general, a window is generally installed in a building to isolate an interior space from the outside and to ventilate an enclosed space inside. In particular, in recent years, it is common to install a double-window structure in order to protect the interior from external noise or pollutant sources and to improve the effect of heating and cooling.

As described above, the double-window structure constitutes a double-window structure by installing a double aluminum chassis in an office building group, and in a general house or a multi-family house by double-installing an aluminum chassis and a wooden window frame or an aluminum chassis and a high chassis (PVC). It is general to construct a double glazing structure.

On the other hand, the double-window structure as described above is generally made of the configuration of the window frame, the glass window fixing frame and the glass window. The double-window structure is fitted to the window frame while the glass window is fixed by the glass window fixing frame and slides along the guide rail of the window frame.

However, since the general double-window structure of the structure as described above is a structure that is slidably coupled to the guide rail of the window frame by fixing the glass window through the glass window fixing frame, there is no choice but to form a gap between the window frame and the glass window fixing frame.

Therefore, the general double-window structure has some effect in preventing external noise or cooling and heating, but due to the gap formed between the window frame and the glass window fixing frame, the effect of noise prevention or air conditioning from the outside is inevitably deteriorated.

In addition, since the general double-window structure as described above is to install the aluminum chassis one by one inside or outside, or to install a window frame made of wood or PVC inside and an aluminum chassis on the outside, the thickness of the window frame in installing the double-window structure is larger than expected. It is a structure that can only be thickened.

As mentioned above, the reason why the thickness of the window frame is inevitably made is that the double window is formed by installing the aluminum chassis inside and outside, or the window frame of the wood or PVC and the aluminum chassis are installed inside and outside. It is also because there is a thickness of the glass window fixing frame for fixing the glass window to slidably coupled to the window frame.

Therefore, the general double-window structure is not only difficult to work due to the installation, but also because of the installation of a double-window by installing the aluminum chassis inside and outside each other, or by installing a wood or PVC window frame and the aluminum chassis inside and outside respectively. Because of the high cost, the economic burden arises.

The present invention has been proposed to solve various problems of the prior art, the outside of the structure of the window frame structure for slidably coupling the glass window to the window frame through the glass fixing frame on the inside of the structure of the window frame guide and the window frame only to the window frame The double glazing is constructed integrally. This structure is thinner and can be manufactured at a lower cost than the double glazing structure for installing aluminum chassis, which is generally used inside or outside, or the double glazing structure for installing wooden or PVC window frames and aluminum chassis, respectively. By using mohair meat on the outside of the packing for the guide, noise prevention and high heating and cooling efficiency are possible.

The present invention is configured to achieve the above object is as follows.

The window frame of the double-window structure according to the present invention comprises a plurality of outer guide rails formed at regular intervals so that the upper and lower sides correspond to each other outside the inner surface; A plurality of inner guide grooves formed by a plurality of inner guide rails formed at predetermined intervals so that the upper and lower sides correspond to each other inside the inner surface; And a window guide packing that prevents the flow of the glass window and prevents noise during sliding back and forth when the glass window is fitted on the inner guide groove so as to be slidably coupled to the window frame, but the glass is fixed to the outer guide rail. The glass window fixing frame is slidably coupled to the outer guide rail, and the glass window is slidably coupled to the packing for the glass window guide fitted into the inner guide groove to form a double window.

Hereinafter will be described in detail with respect to the window frame of the double window structure according to an embodiment of the present invention.

1 is a perspective view showing a window frame of a double window structure according to the present invention,

2 is a front view showing a window frame of a double glazing structure according to the present invention;

Figure 3 is a vertical cross-sectional view showing a window frame of the double-window structure according to the present invention,

Figure 4 is a left and right coupling cross-sectional view showing a window frame of a double-window structure according to the invention,

5 is a vertical cross-sectional view of the sliding window to remove the sliding window pane in the double frame structure according to the invention,
Figure 6 is a cross-sectional view showing a drainage hole in the window frame of the double glazing structure according to the present invention,

Figure 7 is a perspective view showing the packing for the glass guide guide applied to the window frame of the double glazing structure according to the present invention.

First, the double-window structure according to the present invention, the outer window is composed of a window frame and a glass window fixing frame and a glass window, the inner window is applied to the structure of the sliding window using the packing for the glass window guide, the inner and outer sides integrally aluminum chassis or high chassis (PVC) ) It is a technology that provides a thinner window frame structure than the existing double window structure, and improves the effect of noise prevention and heating and cooling through the window structure without gaps inside by using the packing for the window guide. .

As described above, the double-window structure according to the present invention has a method of constructing the double-window structure through a window frame integrating a glass window fixing frame structure and a sliding window structure.

Figure 3 is a vertically coupled cross-sectional view showing a window frame of the double window structure according to the present invention, Figure 4 is a left and right coupling cross-sectional view showing a window frame of the double window structure according to the present invention.

As shown in Figure 3 and 4, the double window structure according to the present invention is configured through the window frame integrally composed of a structure that can be slidably coupled glass window fixing frame and the structure for applying the packing for the glass guide guide. That is, the structure that couples the glass window through the glass window fixing frame to one window frame and the sliding window structure to which the packing for the glass window guide is applied are integrally formed.

In more detail, the double-window structure according to the present invention has a plurality of outer guide rails 132 formed at a predetermined interval so that the upper and lower sides correspond to each other, the predetermined interval so that the upper and lower sides correspond to each other inside the outer guide rail 132 When the glass window 140 is slidably coupled to the window frame by fitting the two inner guide grooves 142a and the inner guide grooves 142b formed by the inner guide rails 142, the flow of the glass window 140 is increased. While preventing the noise when the front and rear sliding of the glass window made of a configuration of the packing 160 for the guide.

The double-window structure configured as described above is coupled to the outer guide rail 132 so that the glass window fixing frame 134 for fixing the glass window 130 to the outer guide rail 132, the glass window 140 is the inner guide It is configured to slidably coupled to the glass guide guide packing 160 fitted in the grooves (142a, 142b) to form a double window.

On the other hand, in the window frame of the sliding structure configured as described above, the window guide packing 160 is formed at intervals of the width associated with the guide grooves (142a, 142b) of the window frame, but before and after the upper and lower rear of the glass window 140 The two sides are inclined from the lower end of each of the glass window joining holding surface 162 and the glass window joining holding surface, which are in surface contact with each other, to maintain the glass window 140 coupled to the window frame. The guide surface 164 which is formed to be raised and lowered elastically at a low middle height to guide the glass window 140 is formed in an integral configuration.

The window guide packing 160 which is integrally formed by the configuration of the glass window coupling holding surface 162 and the guide surface 164 as described above is manufactured in the form of “W”, and the guide groove of the window frame is formed. 142a and 142b are elastically deformed to be in the form of "M". The shape of the molded state and the state constrained to the guide grooves 142a and 142b of the window frame are different because the packing for the window guide 160 is molded of a rubber material.

At this time, the upper surface of the packing for the window guide 160 is provided with the melting of the synthetic resin material for the smooth sliding of the glass window 140.

On the other hand, as described above, when the glass window coupling retaining surface 162 and the guide surface 164 integrally formed in the guide grooves (142a, 142b) of the window frame is constrained to restrain the glass window bonding The surface 162 is formed higher than the depth of the guide grooves 142a and 142b, that is, the height of the guide rail 142, and the guide surface 164 is formed to be lower than that of the glass window coupling holding surface 162, but the height of the guide grooves 142a and 142b is higher than the guide grooves 142a and 142b. It is formed at the height of the intermediate depth of 142a, 142b.

At this time, the glass window 140, which is inserted and coupled between the guide surface 164 of the window guide packing 160, which is fitted into the guide grooves 142a and 142b of the upper and lower side frames of the window frame, is coupled as shown in FIG. When the bottom surface 150 of the glass window is inclined to one side while the window guide packing 160 is removed from the guide grooves 142a and 142b of the side frame, the glass can be pulled out without interference with the lower part of the inner guide rail 142. Made of height.

As described above, when the glass window guide packing 160 according to the present invention is replaced with the glass window guide packing 160 fitted to the window frame without deforming the window frame as in the prior art when replacing the glass window 140, The glass window 140 may be removed from the portion of the window frame where the window guide packing 160 is removed after removing the window guide packing 160 without deforming the window frame. Make sure

Referring to the replacement of the above-described glass window 140 in more detail as follows.

When the window 140 is removed from the window frame, the window guide packing 160 fitted on the guide groove 142b of the windowless part of the window frame is removed while the window 140 is pushed in one direction before and after the window frame. After moving the glass window in the direction of the guide groove from which the packing for the window guide is removed, the packing for the window guide 160 inserted into the opposite guide groove is also removed. Lifting the glass window with the guide grooves on the top of the window guide packing 160 has been removed and tilting the lower portion 150 of the glass window to one side, the glass window 140 can be removed from the window frame without interference with the lower side of the inner guide rail. .

When the glass window 140 is inserted into the window frame, the window guide packing 160 is inserted into the lower part of the guide groove 142b of the inner guide rail 142, and then the glass window 140 is inclined to the upper part of the guide groove 142b. The glass window guide packing 160 in which the glass window is inserted into the guide groove 142b by sliding the window lower part 150 forward to be positioned above the guide packing 160 inserted into the guide groove 142b and then moving the glass window 140. Surface contact with the guide surface (164). And after the glass window 140 is pushed in one direction of the front and rear of the window frame in the guide groove of the upper portion of the glass window 140 in the part without the glass guide guide 160 to the guide groove 142b; At this time, the window guide packing 160 inserted is in the direction of the glass window, and half of the length of the glass window does not fit in the guide groove and comes out, and the remaining length of the glass guide guide packing 160 is directed toward the guide groove of the glass window. Insert it. Then, the glass window is pushed in the direction in which the guide packing 160 is inserted to position the glass window guide packing 160 inserted into the glass window, and then the glass window guide packing 160 in surface contact with the glass window is again in the opposite direction. After moving so as to bring the glass window 140 in the middle of the window frame, the glass packing guide for packing guide 160 that is not inserted before and after the glass window is inserted into the guide groove (142b).
Another process of inserting or removing the glass window in the guide groove 142a is the same as above.

If described in more detail for the window guide packing 160 according to the present invention configured as described above are as follows. First, when the glass window coupling retaining surface 162 is in contact with the upper and lower front and rear surfaces of the glass window 140 when the glass window 140 is inserted into the sliding window frame, the glass window 140 is coupled to the sliding window frame, thereby maintaining the glass window coupling The holding surface 162 is formed to be elastically spaced at intervals related to the guide grooves 142a and 142b of the window frame.

The glass window coupling holding surface 162 as described above is formed higher than the height of the inner guide rail 142 which is the depth of the guide grooves 142a and 142b, so that the window guide packing 160 is mounted on the guide grooves 142a and 142b. In the case of fitting, the glass window coupling holding surface 162 is exposed to the same or higher than the upper end of the inner guide rail 142.

Guide surface 164 is to guide the sliding of the glass window 140 together with the glass window holding surface 162, the guide surface 164 is coupled to the glass window on both sides from the lower end of each of the glass window holding window 162 Both sides of the center between the holding surface 162 to form an inclined surface is formed to be raised up and down elastically deformable to a height lower than the glass window coupling holding surface 162. At this time, the upper surface forms a plane so that the upper surface and the lower surface of the glass window 140 are guided in surface contact when sliding the glass window.

On the other hand, by the formation of the glass window coupling holding surface 162 and the guide surface 164 as described above, the glass window coupling holding surface 162 is opposed between the glass window coupling holding surface 162 and both inclined surfaces of the guide surface 164. A folding elastic groove 166 is formed to allow a certain range of folding in the direction, and the lower portion between both inclined surfaces of the guide surface 164 may have a contraction elastic groove 168 to allow the guide surface 164 to be elastic up and down. Is formed.

As described above, a folding elastic groove 166 is formed between the inclined window holding surfaces 162 and the both inclined surfaces of the guide surface 164 such that the window coupling holding surfaces 162 are folded in a predetermined range in an opposite direction. When the window guide packing 160 is fitted into the guide grooves 142a and 142b, the window coupling retaining surface 162 is elastically deformed in a direction opposite to each other, thereby causing a certain range of folding.

In addition, the lower portion between both inclined surfaces of the guide surface 164 is formed with a contraction elastic groove 168 so that the guide surface 164 can be elastically up and down, so that the glass window guide packing 160 is fitted to the window frame and coupled to the window frame. When the glass window 140 is inserted into the guide packing 160, the guide surface 164 is elastically deformed into the contracting elastic groove 168 so that the glass window 140 may be fitted into the glass window guide packing 160.

And the window frame of the general double-window structure is holed in the direction parallel to the ground and the outer guide, the outer guide rail 132 and the middle guide 138 of the lower window frame for drainage. This method has the advantage of a simple process when producing a product, but once it is constructed, when the rain is accompanied by strong winds, the drainage hole is connected from the outside to the inside in a straight line, so that water is accumulated on the outer guide groove and even rain indoors. This may cause inflow.
In order to compensate for this, the window frame of the double-window structure according to the present invention has vertical drainage holes 1, 2 and 3 and horizontal drainage holes 4 and 5. 6, the vertical drainage holes 1, 2, and 3 are formed in a direction perpendicular to the ground, and the horizontal drainage holes 4 and 5 are formed in a direction parallel to the ground. At this time, care should be taken so that the vertical extension lines of the vertical drain holes 1, 2 and 3 and the horizontal extension lines of the horizontal drain holes 4 and 5 do not meet each other. If the two extension lines meet, there is a risk that the rainwater will flow back and there is a possibility that the draft can flow inward.
Therefore, the window frame of the double-window structure according to the present invention forms a vertical drainage holes (1, 2, 3) in the vertical direction with the ground on the side of the outer guide, the outer guide rail and the intermediate guide 138, Horizontal drainage holes (4, 5) are formed in parallel directions, and the extension lines passing through the centers of the holes in the vertical direction and the extension lines passing through the centers of the holes in the horizontal direction are formed by processing the opposite ends of the window frame, respectively.
The double glazing structure according to the present invention configured as described above can be applied to the case of building a new building and remodeling.
As described above, according to the present invention, by applying a sliding window structure to which the packing for the window guide is applied, the thickness of the double window frame can be made thinner. In addition, the gaps between the windows can be eliminated to further improve noise protection and air conditioning.
On the other hand, when constructing the window frame of the double-window structure according to the present invention, the upper and lower annulus 143 in the glass window fixing frame 144 with the annulus 143 is the lower middle guide 138 and the upper sash of the lower sash Since the interference occurs with the upper middle guide 139 of the, the hook meat 143 of the windshield fixing frame 144 overlaps the hook meat 143 and the middle guide (138, 139) so that the hook meat 143 is not caught by the guides (138, 139). 143) must be removed.
If there is no mohair flesh 120 that can prevent the inflow of wind in the cut portion of the ring meat 143 here, the inflow of wind occurs in the gap is reduced noise and insulation effect.
Therefore, the mohair groove 141 of the window fixing frame 144 having the mohair groove groove 122 inside the grooves of the middle guide 138 and 139 of the lower window frame 136 and the annulus 143 is provided with a triple mohair. It is desirable to allow the flesh 120 to completely block the inflow of wind.
In addition, the space where the wind before and after the hook meat may flow is also provided with the mohair groove 141 before and after the hook meat to prevent the inflow of wind, and the windshield bar 148 at the portion where the sliding window 146 crosses. The upper, lower, front and rear sides of the glass window are the window guide packings 160 mounted on the inner guide grooves, and the two sliding glass windows 146 sliding over the window guide packings 160 at the bottom of the window frame. Cotton is preferably mohair flesh of the windscreen bar 148 to completely block the inflow of wind.
In addition, when the glass window fixing frame 144 is completely closed, two hooks 143 may be overlapped to reduce the risk of the glass window being removed even in a strong wind.
In general stores or offices, there are cases where show windows are made of double glazing or tempered glass on double glazing. In order to install show glazing on double glazing, Ossa parts are used to combine double glazing or tempered glass and double glazing.
The Osai is bonded to the laminated glass or tempered glass with silicon and is fastened to the piece after working with silicon for the purpose of preventing leakage to the contact surface with the double-window structure.
However, when the amount of silicon is insufficient between the window frame and Osi of the double-window structure, or when bubbles are generated in the silicon or water is introduced into the silicon joint surface, and the construction of the vibration vibrates near the building, the adhesive surface of the O-si and the double-window frame is weakened. In this case, a fine gap is generated between the window and the double window frame, and when the rain is accompanied by strong winds during the rainy season, water may flow between the window and the window between the window and the water leak, causing damage to the building.
The double-glazed window frame has a groove 110 having a width of 20 mm and a depth of 13 mm for inserting double-layered glass or tempered glass on the top and side, and inserting the double-layered glass or tempered glass between the grooves 110 when the show window is mounted on the double window. And if the groove 110 and the glass is in contact with the inner and outer surface to implement the silicon processing than the case of using Osai, the operation is simpler, the cost is reduced and the design is also concise.

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The present invention is not limited to the above-described embodiments, and may be variously modified and implemented within the scope of the technical idea of the present invention.

According to the present invention, a window frame having a thinner thickness is formed by integrally constructing a window frame having a structure for slidably coupling the glass window to the window frame through a glass window fixing frame on the outside and a double window frame having a structure for coupling only the glass window to the window frame. It can be configured, can configure the double glazing at a lower cost, there is an effect that can facilitate the installation of the double glazing.

In more detail, the double frame structure window frame according to the present invention has the following characteristics compared to the conventional double frame structure window frame.

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The window frame of the double window structure according to the present invention has a height 15mm lower than the outer guide and the middle guide and when the glass fixing frame is coupled to the window frame, the glass window fixing frame may have a structure lowered more than 20mm than the outer guide and the middle guide. have.
Therefore, the glass pane fixing frame is sufficiently inserted into the window frame guide than the general double window structure to more effectively block the inflow of wind.

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Since the window frame of the double window structure according to the present invention is a sliding glass window structure to which the packing for the glass window guide is applied, the window frame may have an effect of reducing the overall thickness of the window frame.

And the conventional double-window structure window frame is used to combine the window frame of different materials using wood or PVC on the inside and the aluminum chassis on the outside, so that the production cost is double, the window frame of the double-window structure according to the present invention is both inside and outside Since it is an integral structure using aluminum or PVC, it is cheaper than the double window structure window frame which is generally used in production unit price.

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Claims (5)

delete A plurality of outer guide rails formed at regular intervals so that the upper and lower sides correspond to each other outside the inner side; A plurality of inner guide grooves formed by a plurality of inner guide rails formed at regular intervals such that upper and lower sides correspond to each other inside the inner surface; Is inserted into the inner guide groove to slidably coupled the glass window to the window frame when the glass window guide packing to prevent the flow of the glass window and to prevent noise when sliding back and forth of the glass window; A glass window fixing frame for fixing a glass window is slidably coupled to the outer guide rail to the outer guide rail, and a glass window is slidably coupled to the packing for the glass guide guide fitted to the inner guide groove. The inner and outer sides are integrated and use aluminum chassis or high chassis (PVC) structure, The glass window guide packing is formed at intervals of a width related to the guide groove of the window frame, and is in contact with the upper and lower front and rear surfaces of the glass window and the elastic glass window coupling holding surface for holding the glass window coupled to the sliding window frame and Both sides form an inclined surface from the lower end of each of the glass window joining holding surfaces to the center between the glass joining holding surfaces of both sides, and the upper and lower sides of the glass joining holding surface are formed to be raised and lowered elastically at a lower height than the glass joining holding surface. A double-window structure window frame, characterized in that the guide surface constituting a plane so that the top surface and the bottom surface is guided in surface contact. delete The method of claim 2, wherein the glass window coupling holding surface and the guide surface of the guide packing is made in the form of "W", when it is fitted into the guide groove of the window frame, characterized in that the elastic deformation in the form of "M". Window frame of double glazing structure. According to claim 2 or 4, wherein the outer side guide, the outer guide rail and the side surface of the intermediate guide to form a vertical drainage hole in the direction perpendicular to the ground, the horizontal drainage hole formed in the direction parallel to the ground in the lower part of the window frame However, the window frame of the double-window structure characterized in that the extension line passing through the center of the vertical drainage hole and the extension line passing through the center of the horizontal drainage hole do not meet each other.

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