KR101395139B1 - Glass windows of the support device - Google Patents

Abstract

The present invention relates to a technology regarding windows installed in buildings such as houses, apartment buildings, and villas. The technology regarding a glass window supporting apparatus enhances the privacy protection and thermal insulation efficiency between a glass window and a window frame, and arranges a support bracket with lower thermal conductivity between the glass window and the window frame to enhance the thermal insulation efficiency. The main configuration according to an embodiment of the present invention includes: a window frame which has coupling grooves formed on an inner side surface in the longitudinal direction, and is installed by fitting the coupling grooves to coupling bars in the in the longitudinal direction of the facing side; a support bracket which is installed by being fitted to the coupling grooves of the window frame, is arranged on the upper portion of the glass window, and is made of a synthetic resin with low thermal conductivity; and a buffer member which is coupled to and installed on the lower surface unit of the support bracket and is adhered and installed on the inner side surface of the window frame.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a glass window support device,

The present invention relates to a window provided on a building such as a house, an apartment, a villa, or a building. More specifically, the present invention relates to a technique of installing a buffer member on a support bracket made of a synthetic resin material having low thermal conductivity, By inserting it into the window frame and then placing it on top of the support bracket, the airtightness and insulation between the window and the window frame can be improved and the support bracket with low thermal conductivity is placed between the window and the window frame. Is a technique relating to a windshield support apparatus of a window.

Generally, most buildings, such as houses, apartments, villas, and buildings, have windows installed on the outside. These windows make the appearance of the building more beautiful and serve as a passage for sunlight and wind, In addition to this purpose, Hyundai is adding a pleasant environment to the residents with the function of viewing the fire, waterproofing, soundproofing and outdoor scenery.

In recent years, most of the windows have a chassis fixedly installed in an open space of a wall formed in a rectangular shape in a building, and a casement window or a fixed window is installed on the chassis. Such a window is used for heating in the winter, The window is closed to block the indoors, and the window is opened to ventilate the room air.

In order to improve sound insulation and heat insulation, such conventional windows are provided with double windows for the outer and inner windows in the chassis. Especially, in order to increase the heat insulation in the low temperature in winter, polyamide or polyurethane material The heat insulating frame is applied to prevent heat conduction from the outside and prevent the condensation phenomenon.

1, a window frame 10 provided with a chassis 100 fixed in a rectangular shape on a wall of a building and having a glass window 200 inserted therein is housed inside the chassis 100 in a hinged or fixed type And the windshield 200 is installed in the window frame 10 as a double layer or a single layer.

As shown in FIG. 2, the spacer 210 is placed on the inner surface of the window frame 10 at regular intervals, and the spacer 210 is formed on the spacer 210, The inner side of the fastening bar 11 and the inner side of the window frame 10 and the inner side of the windshield 200 and the inner side of the window frame 10, The packing 12 is sandwiched therebetween, and the silicon 13 is injected to the outside.

In such an installation structure of the glass window, fine gaps are generated between the fastening bar 11 and the window frame 10, and gaps are generated between the spacers 210 arranged at regular intervals, so that the airtightness is lowered, There is a problem that cold air and heat are introduced and the heat insulating property is deteriorated.

In addition, since the spacer is placed on the window frame and the window is installed on the window frame, the window frame and the window are contacted through the spacer, so that the cold air and the heat are transferred to the inside through the window frame or the window, .

Korean Patent No. 10-1053652. Korean Patent No. 10-0837165. Korean Patent No. 10-0764145. Korean Patent No. 10-0321636.

In the present invention, since a minute gap is formed in the installation structure of a conventional window frame, airtightness is lowered so that rainwater penetrates from the outside, while cold air and heat are transmitted from the outside through a window frame or a window to the inside, As a technique for solving the problems, a support bracket made of a synthetic resin material having a low thermal conductivity is placed between a window frame and a windshield so as to block heat and cool air transmitted from the outside to the inside, Which is attached to the window frame, so as to improve airtightness between the window pane and the window frame.

The present invention has been made to solve the above-

A window frame having a fastening groove formed in one side of its inner side and a fastening bar inserted into the opposite side in a longitudinal direction; A support bracket mounted on a fastening groove of the window frame and provided with a windshield on an upper portion thereof and made of a synthetic resin material having a low thermal conductivity; And a buffer member coupled to the bottom surface of the support bracket and closely attached to the inner surface of the window frame.

Further, as an embodiment of the present invention, the support bracket has a horizontal supporting portion formed to correspond to a width of a lower portion of the window, a vertical portion formed on an upper side of the vertical portion on one side of the supporting portion, And a fastening groove is formed on the bottom surface of the support portion in a shape of "? &Quot;.

As an embodiment of the present invention, the cushioning member is formed of rubber or synthetic resin having elasticity, and has a cushioning portion formed in a cylindrical shape, and a fastening portion is formed at the upper end of the cushioning portion in the form of "

According to the embodiment of the present invention, since the support bracket made of a synthetic resin material having a low thermal conductivity is installed between the window frame and the windshield, it blocks the cold air and the heat transmitted from the outside through the window frame or the windshield The heat insulating property of the window is further improved, and the buffer member is fitted to the support bracket and is brought into close contact with the window frame, thereby enhancing the airtightness between the window pane and the window frame.

In addition, according to the embodiment of the present invention, since the cushioning member formed of an elastic material is fitted to the bottom surface of the support bracket and is closely attached to the window frame, the airtightness between the window and the window frame is improved, thereby preventing rainwater from penetrating from the outside, There is an effect of preventing the heat from flowing into the inside.

1 is a front view showing an installation state of a conventional window.
Fig. 2 is a sectional view of the main part showing the installation state of the conventional window frame. Fig.
3 is a cross-sectional view of the main part showing the installation state of the window frame in the embodiment of the present invention.
4 is an exploded perspective view showing a support bracket and a buffer member in the embodiment of the present invention.
5 is an assembled cross-sectional view illustrating a support bracket and a buffer member in an embodiment of the present invention.
6 is a cross-sectional view of a main portion showing a process of installing a windshield in an embodiment of the present invention.
7 is a cross-sectional view showing another embodiment of the support bracket in the present invention.
8 is a sectional view of the main part showing another installation state of the window frame in the present invention.

A window frame 10 having a fastening groove 14 in a longitudinal direction on one side of an inner side and a fastening bar 11 inserted in a longitudinal direction on the opposite side; A supporting bracket 20 fitted in a coupling groove 14 of the window frame 10 and having a glass window 200 mounted on the upper portion thereof and formed of a synthetic resin material having a low thermal conductivity; And a cushioning member 30 coupled to the bottom surface of the support bracket 20 and closely attached to the inner surface of the window frame 10.

In the main structure of the embodiment, the window frame 10 is formed in a rectangular shape and is installed in the inside of the chassis 100 in a hinged or fixed manner, and as shown in Fig. 3, And a fastening bar 11 is fitted in the fastening bar 11 in the longitudinal direction.

The engaging groove 14 is protruded around one side edge of the window frame 10 in the form of a recess having an opening in the inside and is formed in the longitudinal direction of the window frame 10, Is formed in the shape of "? &Quot;, and one lower end of the window frame (10) is fitted around the other edge of the window frame (10)

The window frame 10 is generally made of aluminum or synthetic resin, molded in an extrusion manner, and then cut to an appropriate length according to the specifications of a window, and is made into a rectangular shape by fitting a hanger.

3 to 5, the support bracket 20 is a part of the lower part of the windshield 200. The support brackets 20 are installed in the upper part of the windshield 200, The vertical portion 22 is formed in an upright position on one side of the support portion 21 while the upper portion of the vertical portion 22 is fastened in the form of " And a fastening groove 24 is formed on the bottom surface of the support portion 21 in the shape of ""

The support bracket 20 is preferably formed of polyamide or polyurethane material having a very low thermal conductivity and is extruded in the lengthwise direction of the window frame 10, The fastening tabs 23 formed on the upper end of the window frame 10 are fitted and fastened to the fastening grooves 14 formed in the window frame 10.

The supporting part 21 is formed to have a width corresponding to the lower width of the glass window 200 to support the lower part of the window 200 and the vertical part 22 is supported on the glass window 200 on one side of the supporting part 21. [ As shown in Fig.

The support portion 21 is formed with a fastening groove 24 in the center of the bottom surface in the form of "┬", the fastening groove 24 is formed in the longitudinal direction, and a spacer The support portion 21 is placed on the support portion 210 to support both sides.

The cushioning member 30 has a function of increasing the airtightness and the heat insulating property by being closely attached to the window frame 10 and the support bracket 20 in the main structure of the embodiment, Similarly, a cushioning portion 31 is formed in a cylindrical shape by molding with rubber or synthetic resin having elasticity, and a fastening portion 32 is formed at the upper end of the cushioning portion 31 in an "

The cushioning member 30 is formed in the longitudinal direction of the window frame 10 and the fastening portion 32 formed at the upper end of the cushioning portion 31 is fastened to the fastening groove 24 formed in the bottom surface of the support bracket 20 Respectively.

When the external force is applied to the cushioning member 30, the cushioning portion 31 made of a cylindrical shape is elastically deformed. As shown in Fig. 3, when the window glass 200 is put on the supporting bracket 20 and a load is applied, And is in close contact with the window frame 10 and the support bracket 20 while being deformed.

The support bracket 20 and the buffer member 30 are cut and prepared so as to match the length of the window frame 10 and the support bracket 20 is prepared, The supporting bracket 20 and the cushioning member 30 are coupled to each other through the coupling part 32 of the cushioning member 30 to the coupling groove 24 of the supporting bracket 20, And the clamping jaws 23 of the support brackets 20 are fitted and fixed to the engaging grooves 14 of the window frame 10 by pressing downward while pressing them downward.

The lower portion of the window pane 200 is then placed on the support section 21 of the support bracket 20. The load of the window pane 200 is applied to the support section 21 so that the buffering member 30 is elastically deformed, The support portion 21 is supported by the spacer 210 while the inner surface of the support portion 10 and the bottom surface of the support portion 21 are in close contact with each other.

The upper end of the window frame 10 is coupled with the fastening bar 11 and the packing 10 is inserted between the fastening bar 11 and the side surfaces of the windshield 200 and the windshield 200 and the fastening groove 14 12 is inserted into the window frame 10 and then the silicon window 13 is injected into the exterior thereof to thereby install the window pane 200 in the window frame 10.

7 and 8, the supporting bracket 20 is vertically provided on both ends of the supporting portion 21, which is embodied in a horizontal plane in the supporting bracket 20, 22) 22a, and a fastening step 23 can be formed at the upper end of the one vertical part 22. [

In this case, when the glass window 200 is placed on the supporting portion 21 as shown in FIG. 8, the lower portion of the glass window 200 is sandwiched between the vertical portions 22 and 22a, The vertical portions 22 and 22a are closely attached to each other to further enhance airtightness.

Accordingly, in the embodiment of the present invention, since the support bracket, which is made of a synthetic resin material having low thermal conductivity, is installed between the window frame and the windshield, it blocks the cold air and the heat transmitted from the outside through the window frame or the windshield The heat insulating property of the window is further increased.

Further, according to the embodiment of the present invention, the cushioning member formed of an elastic material is fitted to the bottom surface of the support bracket and is closely attached to the window frame, thereby enhancing the airtightness between the window and the window frame, thereby preventing penetration of rainwater from the outside, To the inside of the apparatus.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It is possible to carry out various changes in the present invention.

10: Window frame 11: Fastening bar
12: Packing 13: Silicone
14: fastening groove 20: support bracket
21: Support part 22: Vertical part
23: fastening jaw 24: fastening groove
30: buffer member 31: buffer member
32: fastening part 100: chassis
200: Glass window 210: Spacer

Claims (4)

A window frame 10 having a fastening groove 14 formed on one side of its inner side and a fastening bar 11 fitted on its opposite side in the longitudinal direction; A supporting bracket 20 fitted in a coupling groove 14 of the window frame 10 and having a glass window 200 mounted on the upper portion thereof and formed of a synthetic resin material having a low thermal conductivity; And a cushioning member (30) coupled to the bottom surface of the support bracket (20) and closely attached to an inner surface of the window frame (10)
The support bracket (20)
A support portion 21 is formed on a horizontal plane so as to correspond to a width of a lower portion of the glass window 200. A vertical portion 22 is formed in an upright position on one side of the support portion 21, Characterized in that a clamping jaw (23) is formed in a shape of "┤" and a fastening groove (24) is formed in the bottom of the supporting part (21) in the form of "┬".
delete The method according to claim 1,
The support bracket (20)
Characterized in that vertical portions (22) and (22a) are formed on both ends of the support portion (21) in an upright manner and a fastening step (23) is formed on the upper end of the one vertical portion (22).
The method according to claim 1,
The buffer member (30)
Characterized in that a cushion portion (31) is formed in a cylindrical shape and formed with rubber or synthetic resin having elasticity and a fastening portion (32) is formed in an upper end of the cushion portion (31) Device.

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