WO2017026617A1

WO2017026617A1 - Window with integrated glass handrail

Info

Publication number: WO2017026617A1
Application number: PCT/KR2016/002323
Authority: WO
Inventors: Jung Hoon Kim
Original assignee: Lg Hausys, Ltd.
Priority date: 2015-08-11
Filing date: 2016-03-09
Publication date: 2017-02-16
Also published as: KR20170019207A

Abstract

Disclosed is a window with an integrated glass handrail, wherein a transom of existing products having divided facades is obviated in order to secure a wide field of vision, a mullion division structure design is applied in order to achieve slimming of the window and to improve wind resistance, and the glass handrail is simply and securely mounted at the outdoor side of a frame.

Description

WINDOW WITH INTEGRATED GLASS HANDRAIL

The present invention relates to a window with an integrated glass handrail, and more particularly to a window with an integrated glass handrail, from which a transom (horizontal bar) of existing products having divided facades is obviated in order to achieve slimming of the window, a mullion (vertical bar) division structure design is applied in order to improve wind resistance, and the glass handrail is simply and securely mounted to the outdoor side of a frame.

In general, windows and doors are construction members that are mounted in various kinds of openings or holes formed in buildings in order to isolate the interiors of the buildings from the exteriors of the buildings. A frame, by which a window or a door is supported, may be classified as a wood frame or a metal frame depending upon the material that the frame is made of. In recent years, plastic frames have been developed. In addition, frames have also been made of synthetic resins such as polyvinyl chloride (PVC).

A conventional sliding type window is opened and closed as follows. When a user slides a sash in a direction in which the sash is closed while holding a handle of the sash, rollers mounted to the lower end of the sash are rotated along a rail mounted on a frame. The sash approaches one end of the frame, and finally comes into contact with the frame. As a result, the operation of closing the sash is finished. An example of the sliding type window is disclosed in Korean Patent Publication Application No. 10-2001-0068784.

In the conventional sliding type window as described above, the sash is slid in leftward and rightward directions such that the sash is opened in order to let fresh air in through the frame.

Meanwhile, in recent years, a window having divided facades, which is configured using transoms and mullions in order to improve the external appearance of a building without the use of a steel handrail, has been increasingly used.

In the window having divided facades, an outdoor fixture type window serves as the handrail. Glass mounted in the fixture type window is laminated glass. A polyvinyl butyral (PVB) film is attached to the glass in order to prevent the glass from breaking. A transom is mounted in the upper part of the fixture type window, and a sliding type window is mounted on the transom.

In this case, the fixture type window and the sliding type window, which is mounted in the upper part of the fixture type window, are often not aligned with each other in terms of the centers of gravity thereof. As a result, the transom, which is located between the fixture type window and the sliding type window, becomes bowed (droops). In order to prevent the occurrence of such a drooping phenomenon, an additional support bar is mounted in order to support the bottom surface of the transom.

In the conventional window having divided facades, however, the transom and the support bar may obstruct a user's field of vision. Furthermore, water may leak from opposite ends of the frame in which the transom is fixed.

Therefore, the present invention has been made in view of the above problems, and it is one object of the present invention to provide a window with an integrated glass handrail, from which a transom of existing products having divided facades is obviated in order to secure a wide field of vision, a mullion division structure design is applied in order to achieve slimming of the window and to improve wind resistance, and the glass handrail is simply and securely mounted to the outdoor side of a frame.

The above and other objects can be accomplished by the present invention described below.

In accordance with one aspect of the present invention, provided is a window including a frame, at least one pair of outdoor sashes mounted to the outdoor side of the frame, at least one pair of indoor sashes mounted to the indoor side of the frame such that the indoor sashes can be slidably opened and closed, and a glass handrail mounted to one side of a sash, which is the outermost one of the outdoor sashes, in a line for covering at least the lower part of an opening.

The glass handrail may include a glass member and a pair of fixing members provided at opposite sides of the glass member, wherein each of the fixing members may include a first coupling part formed at one side thereof such that the glass member can be fitted into the first coupling part and a second coupling part formed at the other side thereof such that the second coupling part can be fixed to the inner circumferential surface of the frame or the sash via a fastening member.

The sash, which is one of the outdoor sashes, may be slidably coupled to an outdoor rail of the frame first, and then the glass handrail may be fixed to one side or opposite sides of the outdoor rail on which the sash is mounted, whereby the sash serves as a stationary window.

A mosquito net may be mounted to the frame on the outdoor side of the opening in order to prevent harmful insects from being introduced indoors.

A roll type mosquito net, configured to be opened and closed in upward and downward directions or in leftward and rightward directions, may be mounted to an upper opening part of the glass handrail.

In accordance with another aspect of the present invention, provided is a window including a frame, at least one pair of outdoor sashes mounted to the outdoor side of the frame, wherein the outermost one of the outdoor sashes is a stationary sash while the other of the outdoor sashes is a sliding sash, at least one pair of indoor sashes mounted to the indoor side of the frame such that the indoor sashes can be slidably opened and closed, and a glass handrail mounted to one side of the stationary sash in a line for covering at least the lower part of an opening.

The glass handrail may include a glass member, catching protrusions formed on the inner circumferential surface of the frame and on one surface of the stationary sash such that edges of one surface of the glass member can be caught by the catching protrusions, and glazing beads coupled into fitting parts provided on the inner circumferential surface of the frame and on the surface of the stationary sash for pushing edges of the other surface of the glass member to the catching protrusions.

The opening may include an upper opening part and a lower opening part, which are partitioned from each other on the basis of a transom, the glass handrail may be mounted in the lower opening part, and a roll-type mosquito net, configured to be selectively opened and closed, may be mounted in the upper opening part.

As apparent from the fore-going, in the window with the integrated glass handrail according to the present invention as described above, the transom of existing products having divided facades is obviated in order to secure a wide field of vision. In addition, the glass handrail is securely mounted in at least the lower part of the opening in order to prevent the occurrence of an accidental fall. Furthermore, a mullion division structure design is applied in order to achieve slimming of the window and to improve wind resistance.

FIG. 1 is a perspective view showing a window with an integrated glass handrail according to the present invention when viewed from the outdoor side;

FIG. 2 is an elevation view showing the window with the integrated glass handrail according to the present invention when viewed from the outdoor side;

FIG. 3 is an elevation view showing the window with the integrated glass handrail according to the present invention when viewed from the indoor side;

FIG. 4 is a sectional view taken along line I-I of FIG. 3;

FIG. 5 is a sectional view taken along line II-II of FIG. 3;

FIG. 6 is a plan sectional view showing a window with an integrated glass handrail according to another embodiment of the present invention; and

FIG. 7 is a side sectional view showing the window with the integrated glass handrail of FIG. 6.

Now, the present invention will be described in more detail with reference to the following examples. These examples are provided only for illustration of the present invention and should not be construed as limiting the scope and spirit of the present invention.

In the drawings, the same or similar elements are denoted by the same reference numerals even though they are depicted in different drawings.

FIG. 1 is a perspective view showing a window with an integrated glass handrail according to the present invention when viewed from the outdoor side, and FIG. 2 is an elevation view showing the window with the integrated glass handrail according to the present invention when viewed from the outdoor side.

Referring to FIGS. 1 and 2, a window 100 according to an embodiment of the present invention includes a frame 110, at least one pair of outdoor sashes 120 mounted to the outdoor side of the frame 110, at least one pair of indoor sashes 130 mounted to the indoor side of the frame 110 such that the indoor sashes 130 can be slidably opened and closed, and a glass handrail 140 mounted to one side of a sash 121, which is the outermost one of the outdoor sashes 120, in a line for covering at least the lower part of an opening S.

Hereinafter, the structure of the window 100 according to the present invention will be described in detail.

The outdoor sashes 120 may include at least one pair of sliding windows. The sash 121, one of the outdoor sashes 120, may be configured to have a stationary window structure based on the glass handrail 140, which is fixed to one side of the sash 121.

Although at least one pair of outdoor sashes 120 may be provided, sliding windows 123, which can be slidably opened and closed, are mounted to opposite sides of a sash 121, which is configured to have a stationary window, such that the sliding windows 123 are symmetric with respect to the sash 121, as shown in the figures, in this embodiment. However, the present invention is not limited thereto. The present invention may also be applied to various opening and closing structures having divided facades based on users' preferences.

The sash 121, which is configured to have a stationary window structure, one of the outdoor sashes 120, may be coupled in a sliding fashion in order to facilitate the processing and construction of the window. That is, the sash 121 is slidably coupled to an outdoor rail of the frame 110 first, and then the glass handrail 140 is fixed to opposite sides of the outdoor rail on which the sash 121 is mounted. As a result, the sash 121, which was initially coupled in a manner appropriate for a sliding window, may serve as a sash for a stationary window.

Referring to FIG. 3, the indoor sashes 130 may be identical in structure to the outdoor sashes 120 except for the glass handrail 140.

Referring to FIGS. 4 and 5, the glass handrail 140 is provided to cover at least a lower opening part S2 of the opening S, thereby preventing the occurrence of accidental falls. The glass handrail 140 may be constituted by a single glass sheet. Alternatively, an additional fixing structure may be applied to the edge of the glass handrail 140 in order to securely mount the glass handrail 140.

More specifically, the glass handrail 140 may include a glass member 141 and a pair of fixing members 143 provided at opposite sides of the glass member 141, wherein each of the fixing members 143 includes a first coupling part 143a formed at one side thereof such that the glass member 141 can be fitted into the first coupling part 143a and a second coupling part 143b formed at the other side thereof such that the second coupling part 143b can be fixed to the inner circumferential surface of the frame 110 or the sash 121 via a fastening member.

In this embodiment, the fixing members 143 are applied to the opposite sides of the glass member 141. However, the present invention is not limited thereto. Additional fixing members 143 may be further mounted to the upper end or the lower end of the glass member 141 in order to securely mount the glass handrail 140.

In addition, a mosquito net 150 may be mounted to the frame 110 on the outdoor side of the opening S in order to prevent harmful insects from being introduced indoors or other foreign matters. The mosquito net 150 may be a stationary type mosquito net or a roll type mosquito net. In this embodiment, however, the mosquito net 150 is a sliding type mosquito net (see FIG. 4). Consequently, the mosquito net 150 can be selectively opened and closed.

The present invention is not limited thereto. In a case in which it is not possible to mount the sliding type mosquito net to the outdoor side of the frame 110 due to the characteristics of the window or in a case in which a user wishes to use another type of mosquito net based on his/her preference, a roll type mosquito net (not shown), which is configured to be opened and closed in upward and downward directions or in leftward and rightward directions, may be mounted to an upper opening part S1 of the glass handrail 140.

FIG. 6 is a plan sectional view showing a window with an integrated glass handrail according to another embodiment of the present invention, and FIG. 7 is a side sectional view showing the window with the integrated glass handrail of FIG. 6.

Referring to FIG. 6, the outdoor sashes 120 may be modified to have various structures. For example, at least one pair of outdoor sashes 120 may be provided, wherein the outermost one of the outdoor sashes 120 may be a stationary sash 121' while the other of the outdoor sashes 120 may be a sliding sash 123.

In this case, the glass handrail 140 may include a glass member 141, catching protrusions 145 integrally formed on the inner circumferential surface of the frame 110 and on one surface of the stationary sash 121' such that edges of one surface of the glass member 141 can be caught by the catching protrusions 145, and glazing beads 147 coupled into fitting parts 147a provided at the inner circumferential surface of the frame 110 and at the surface of the stationary sash 121' for pushing edges of the other surface of the glass member 141 to the catching protrusions 145.

Referring to FIG. 7, the opening S includes an upper opening part S1 and a lower opening part S2, which are partitioned from each other on the basis of a transom 111. The glass handrail 140 may be mounted in the lower opening part S2, and a roll-type mosquito net 160, which is configured to be selectively opened and closed, may be mounted in the upper opening part S1.

In the window 100 with the integrated glass handrail according to the present invention as described above, the transom of existing products having divided facades is obviated in order to secure a wide field of vision. In addition, the glass handrail 140 is securely mounted to at least the lower part of the opening S in order to prevent the occurrence of accidental falls. Furthermore, a mullion division structure design is applied in order to achieve slimming of the window 100 and to improve wind resistance.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

〔Description of Reference Numerals〕

100: Window, 110: Frame, 120: Outdoor sashes, 121, 121': Stationary sashes, 123: Sliding window, 130: Indoor sashes, 140: Glass handrail, 141: Glass member, 143: Fixing members, 141a: First coupling parts, 143b: Second coupling parts, 145: Catching protrusions, 147: Glazing beads, 147a: Fitting parts, 150: Mosquito net, 160: Roll-type mosquito net, S: Opening, S1: Upper opening part, S2: Lower opening part

Claims

A window with an integrated glass handrail comprising:

a frame (110);

at least one pair of outdoor sashes (120) mounted to an outdoor side of the frame (110);

at least one pair of indoor sashes (130) mounted to an indoor side of the frame (110) such that the indoor sashes (130) can be slidably opened and closed; and

a glass handrail (140) mounted to one side of a sash (121), which is an outermost one of the outdoor sashes (120), in a line for covering at least a lower part of an opening (S).
The window according to claim 1, wherein the glass handrail (140) comprises:

a glass member (141); and

a pair of fixing members (143) provided at opposite sides of the glass member (141), wherein each of the fixing members (143) comprises a first coupling part (143a) formed at one side thereof such that the glass member (141) can be fitted into the first coupling part (143a) and a second coupling part (143b) formed at the other side thereof such that the second coupling part (143b) can be fixed to an inner circumferential surface of the frame (110) or the sash (121) via a fastening member.
The window according to claim 1, wherein the sash (121), which is one of the outdoor sashes (120), is slidably coupled to an outdoor rail of the frame (110) first, and then the glass handrail (140) is fixed to one side or opposite sides of the outdoor rail on which the sash (121) is mounted, whereby the sash (121) serves as a stationary window.
The window according to claim 1, wherein a mosquito net (150) is mounted to the frame (110) on an outdoor side of the opening (S) in order to prevent harmful insects from being introduced indoors.
The window according to any one of claims 1 to 3, wherein a roll type mosquito net, configured to be opened and closed in upward and downward directions or in leftward and rightward directions, is mounted to an upper opening part (S1) of the glass handrail (140).
A window with an integrated glass handrail comprising:

a frame (110);

at least one pair of outdoor sashes (120) mounted to an outdoor side of the frame (110), wherein an outermost one of the outdoor sashes (120) is a stationary sash (121') while the other of the outdoor sashes (120) is a sliding sash (123);

at least one pair of indoor sashes (130) mounted to an indoor side of the frame (110) such that the indoor sashes (130) can be slidably opened and closed; and

a glass handrail (140) mounted to one side of the stationary sash (121') in a line for covering at least a lower part of an opening (S).
The window according to claim 6, wherein the glass handrail (140) comprises:

a glass member (141);

catching protrusions (145) formed on an inner circumferential surface of the frame (110) and on one surface of the stationary sash (121') such that edges of one surface of the glass member (141) can be caught by the catching protrusions (145); and

glazing beads (147) coupled into fitting parts (147a) provided on the inner circumferential surface of the frame (110) and on the surface of the stationary sash (121') for pushing edges of the other surface of the glass member (141) to the catching protrusions (145).
The window according to claim 6, wherein

the opening (S) comprises an upper opening part (S1) and a lower opening part (S2), which are partitioned from each other on a basis of a transom (111),

the glass handrail (140) is mounted in the lower opening part (S2), and

a roll-type mosquito net (160), configured to be selectively opened and closed, is mounted in the upper opening part (S1).