KR20150076987A - blocking member integrated double glass - Google Patents

Abstract

According to an aspect of the present invention for achieving the above object, there is provided a double-layered glass which is coupled to the inside of the housing and the housing and is composed of an outer glass window and an inner glass window, And a louver which is integrally formed with the blocking member and is located inside the blocking member and is installed with a plurality of spaced apart from each other, thereby blocking sunlight from being introduced into the room by reflecting sunlight.
As described above, according to the present invention, it is possible to prevent the user from glare by blocking sunlight in the room by reflecting the sunlight, and to prevent the external emission of the indoor heat by the blocking member, It is possible to provide an integral multi-layered glass.

Description

Blocking member integrated double glass "

More particularly, the present invention relates to a double-layered glass with integrated shutoff member, and more particularly, to a double-layered glass having a shutoff member integrally formed with a shutoff member, a louver integrally formed on the shutoff member, and an inclined louver Layer glass which is capable of blocking external radiation of indoor heat and shutting off solar heat.

Generally, the blinds are formed of a set of narrow and long rectangular louvers, and are configured to adjust the angle of the louvers according to the intention of the user, and are used to cut off the sunlight outside.

Blinds made up of a number of louvers are widely used to cover the sunlight coming from the outside or cut off the line of sight from the outside to the window side of an office building or apartment. The conventional method of attaching the blinds to the inner portion of the window is a conventional method. However, in recent years, a large number of blinds have been installed inside the double window made of the outer window and the inner window.

For example, conventional blind built-in window systems capable of solar power generation and natural daylighting are installed inside a double window composed of an outer window and an inner window, and are provided with solar photovoltaic A blind part including at least one reflected light slat capable of reflecting the sunlight to induce indoor sunlight; A driving unit for controlling upward and downward movement and angle of the sunlight slit and the reflected light slat included in the blind part; And a control unit for controlling the operation of the driving unit.

However, the conventional blind built-in window system capable of solar power generation and natural daylighting as described above has a problem that not only the manufacturing process is troublesome but also the manufacturing cost of the blind is increased.

Particularly, in order to control the louver incliningly, since the housing and the lower part of the housing are provided with a driving unit, a storage unit, and the like, a large space is required for installation. There is a problem that maintenance costs are incurred for maintenance and repair.

Korean Patent Laid-Open Publication No. 10-2012-0005314

SUMMARY OF THE INVENTION It is an object of the present invention, which is devised to solve the problems as described above, to provide a multi-layered glass in which a blocking member is provided and a plurality of individual louvers are integrally spaced apart from the blocking member at regular intervals, The slope of the louver is changed so that the louver reflects the sunlight to block sunlight from entering the room, thereby preventing the user's glare. In addition, Layered glass in which a louver capable of emitting light is provided.

It is another object of the present invention to provide a louver which can move the lever upward and downward so that the moving pin is moved up and down along the elongated hole with the hinge as the center and the moving base and the inner windshield move up and down, Layered glass in which the louver is arranged to adjust the angle of the louver by using the lever according to the user's convenience.

According to an aspect of the present invention for achieving the above object, there is provided a double-layered glass which is coupled to the inside of the housing and the housing and is composed of an outer glass window and an inner glass window, And a louver integrally formed with the blocking member and integrally disposed inside the blocking member, wherein a plurality of louvers are installed to be spaced apart from each other by a predetermined distance, thereby blocking sunlight from being introduced into the room by reflecting sunlight.

The louver is integrally disposed in the inside of the blocking member, and is disposed at a right angle to the window, and both ends of the louver are connected to one side surface of the blocking member And is formed in contact with the other surface.

And one side surface of the blocking member is bonded to one surface of the outside window, and the other side surface of the blocking member is bonded so as to be in close contact with a surface of the inside window, And is arranged so as not to be separated from the windshield.

And a tilt adjusting member for tilting the louver integrally formed with the blocking member by inclining the inner end surface of the blocking member such that the window panes are relatively moved with respect to the inner and outer windshields, The adjustment member includes a restraining member for restraining relative movement of the windshields with each other, and a moving member for performing relative movement.

And the restraint member is linked by a link so that the inner glass window and the outer glass window are parallel to each other while being constrained to each other, and the link is composed of a plurality of upper and lower two or more, respectively, and the inner glass window and the outer glass window are connected by a hinge, And the inner glass window and the outer glass window are moved in parallel with each other while relatively moving up and down.

In addition, the moving member includes a moving base coupled with a lower end of the inner glass window and a moving lever for moving the moving base up and down.

The moving base is inclined or parallel to the opposite side of the inner glass window. The moving lever is connected to the housing by a hinge in the middle, and on one side of the moving lever about the hinge, A lever is formed on the other side of the moving lever around the hinge and the lever is moved up and down with respect to the hinge so that the moving pin moves along the slot The movable base and the inner glass window move up and down as the moving pin moves up and down and the other surface of the blocking member moves up and down as the inner glass window moves up and down, The internal structure is inclined so that the louver integrally formed with the blocking member is disposed in an inclined manner It shall be.

As described above, according to the present invention, sunlight is reflected through the louver to block indoor sunlight to prevent glare of the user, It is possible to provide a blocking member integral multi-layered glass.

In addition, according to the present invention, it is possible to arrange the louver at an oblique angle, and to provide a shutter-monolithic double layered glass in which the user can conveniently adjust the angle of the louver by using the lever according to the sunlight.

FIG. 1 is a perspective view illustrating a shutter member-integrated multilayer glass according to a preferred embodiment of the present invention.
FIG. 2 is a cross-sectional view illustrating a shutter member-integrated multilayer glass according to a preferred embodiment of the present invention.
3 is an enlarged cross-sectional view showing a state in which the movable base and the inner glass window are moved up and down when the lever of the shutter member-integrated double layer glass according to the preferred embodiment of the present invention is raised or lowered up and down.
FIG. 4 is an enlarged cross-sectional view illustrating a state in which the moving lever and the inner glass window are moved up and down when the moving lever of the double layer glass with the shutter member according to another preferred embodiment of the present invention is pushed inward or outward of the housing.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to the drawings for explaining a double-layer glass with a shutter member according to embodiments of the present invention.

FIG. 1 is a perspective view illustrating a shutter member-integrated multilayer glass according to a preferred embodiment of the present invention. FIG. 2 is a cross-sectional view illustrating a shutter member-integrated multilayer glass according to a preferred embodiment of the present invention.

Referring to FIGS. 1 and 2, a housing 110 and an outer glass window 120 and an inner glass window 122 are coupled to the inside of the housing 110 to constitute a multi-layer glass.

In addition, the blocking member 130 integral multi-layer glass of the present invention includes a blocking member 130 and a louver 140.

The blocking member 130 is installed inside the multilayer glass.

At this time, the blocking member 130 is a transparent and flexible material.

The louver 140 is formed integrally with the blocking member 130.

The louver 140 is disposed inside the blocking member 130, and a plurality of the louvers 140 are spaced apart from each other by a predetermined distance, thereby reflecting the sunlight to block sunlight from entering the room.

Accordingly, the louver 140 is disposed inside the blocking member 130, and is disposed at a right angle to the window, and the end of the louver 140 is formed in contact with one surface and the other surface of the blocking member 130.

That is, the louver 140 can adjust the angle according to the convenience of the user to prevent sunlight from being introduced into the room by reflecting the sunlight, prevent the user from glare, There is insulation effect by blocking emission.

One surface of the blocking member 130 is bonded to one surface of the outer window 120 and the other surface of the blocking member 130 is bonded to one surface of the inner window 122, 130 are arranged so as not to be separated from the outer windshield 120 and the inner windshield 122.

3 is an enlarged cross-sectional view showing a state in which the movable base and the inner glass window are moved up and down when the lever of the shutter member-integrated double layer glass according to the preferred embodiment of the present invention is raised or lowered up and down.

Referring to FIG. 3, the integrated multilayer glass according to the present invention further includes an inclination adjusting member.

The inclination adjusting member tilts the louver 140 formed integrally with the blocking member 130 by allowing the window glass to move relative to the inner and outer glass windows 122 and 120 so that the end face of the blocking member 130 is inclined.

The inclination adjusting member includes a restricting member and a moving member.

The restraint member constrains the relative movement of the windows.

Further, the restraint member is coupled to the link 150 so that the inner windshield 122 and the outer windshield 120 are moved in parallel while being constrained to each other.

The inner glass window 122 and the outer glass window 120 are connected to each other by a hinge 152 so that the inner glass window 122 and the outer glass window 120 are vertically connected to each other. Perform parallel motion with relative motion.

Of course, the link may be directly connected to the windshield, or it may be connected to a separate member surrounding the windshield rim.

The shifting member performs a relative movement and is composed of a moving base 160 and a moving lever 162.

The movable base 160 is engaged with the lower end of the inner windshield 122.

In addition, the movable base 160 is formed with an elongated hole 164 in an inclined or parallel direction opposite to the inner glass window 122.

The moving lever 162 moves the moving base 160 up and down, and is connected to the housing 110 with a hinge in the middle.

Here, a moving pin 166 is disposed on one side of the moving lever 162, and a lever 168 is formed on the other side.

That is, a moving pin 166 that is fitted in the slot 164 of the moving base 160 is disposed at one side of the moving lever 162 with the hinge as the center.

A lever 168, which can be held by a user, is formed on the other side of the shift lever 162 with the hinge as the center.

Accordingly, as the lever 168 is moved up and down, the movable pin 166 moves upward and downward along the slot 164 around the hinge. As the moving pin 166 moves up and down, the moving base 160 and the inner windshield 122 move up and down. At the same time, as the inner glass window 122 moves up and down, the other surface of the blocking member 130 moves up and down. As a result, one side surface and the other side surface of the blocking member, which are bonded to the outer window, The louver 140 integrally formed with the blocking member is also disposed at an inclined angle.

At this time, the blocking member is a flexible and transparent material, and the louver is opaque with a thin film and is formed integrally with the blocking member.

Accordingly, when one side surface and the other side surface of the blocking member move relative to each other, the inside of the blocking member slips and slopes, so that a louver integrally formed with the blocking member is also formed.

Thus, the multi-layer glass with integral blocking member according to the present invention can block the external emission of the indoor heat and block the sunlight flowing at various angles by the louver 140.

4 is an enlarged cross-sectional view illustrating a state in which the moving base and the inner glass window are moved up and down when the moving lever of the multi-layer glass with integral blocking member according to another preferred embodiment of the present invention is pushed into the inside of the housing or moved outward.

Referring to FIG. 4, another embodiment of the multi-layer glass with integral blocking member according to the present invention is an example in which the inner glass window 122 moves up and down as the user moves the lever 168 back and forth.

4, since the structure of the moving lever 162 is different and the operating state is different from that of the moving lever 162, the operating state of the moving lever 162 is shown in Fig. Reference will now be made to the following.

The movable base 160 is engaged with the lower end of the inner windshield 122.

Further, the movable base 160 is formed with an elongated hole 164, which is coupled with the inner windshield 122 and is inclined to the opposite side.

The moving lever 162 is connected to the housing 110 so that the moving base 160 can be moved up and down.

That is, at one side of the moving lever 162, a moving pin 166 to be fitted in the slot 164 of the moving base 160 is disposed.

On the other side of the moving lever 162, a lever 168 is formed which can be held by the user.

Accordingly, in the state where the moving lever 162 is moved to the inside of the housing 110, the moving pin 166 provided on the moving lever 162 is moved in the moving base 162, (Formed to be higher rightward) formed in the elongated hole 160 formed in the movable base 160, whereby the movable base 160 is moved upward together with the inner windshield 122. At this time, the louver 140 is inclined downward from the inner windshield to the outer windshield.

Conversely, when the user pulls the lever 162, the moving lever 162 moves to the outside of the housing 110, and the moving base 160 moves to the moving pin 166 moving upward from the lower portion of the slot 164 And the movable base 160 is moved downward together with the inner windshield 122. At this time, the louver 140 is inclined upward from the inner glass window to the outer glass window.

That is, the blocking member 130 is formed integrally with the louver 140 so that any one side of the blocking member 130 moves up and down. When the inside of the blocking member 130 is inclined, the louver 140 is also pushed by the blocking member 130 .

As a result, the louver 140, which behaves integrally with the blocking member 130, is also relocated at an angle. Accordingly, when the inner windshield 122 is moved upward, the louver 140 is disposed upward along the other surface of the inner windshield 122.

The user can move the moving base 162 and the inner windshield 122 up and down by pushing or pulling the moving lever 162 into the interior of the housing 110 and thus the louver 140 is inclined It is possible to block the sunlight from entering the room.

110: housing 120: outer windshield
122: inner windshield 130: blocking member
140: louver 150: link
152: Hinge 160: Moving base
162: Moving lever 164: Slot
166: moving pin 168: lever

Claims (7)

A multi-layered glass joined to a housing and an interior of the housing, the multi-layered glass comprising an outer glass window and an inner glass window,
A blocking member installed inside the multilayer glass; And
And a louver which is integrally formed with the blocking member and is located inside the blocking member and is installed to be spaced apart at a predetermined distance to thereby block sunlight from being introduced into the room by reflecting sunlight. Wherein the louver blocks solar heat and blocks external emission.
The method according to claim 1,
The blocking member is made of a transparent and flexible material,
Wherein the louver is integrally disposed inside the blocking member and disposed at a right angle to the window, and both ends of the louver are formed in contact with one surface and the other surface of the blocking member. And blocking solar heat by the louver.
The method according to claim 1,
Wherein one surface of the blocking member is bonded to one surface of the outer window,
Wherein the other surface of the blocking member is bonded to one surface of the inner window,
Wherein the blocking member is disposed so as not to be separated from the outer windshield and the inner windshield, wherein the shielding member blocks the external emission of indoor heat and blocks the solar heat by the louver.
The method according to claim 1,
And a tilt adjusting member for tilting the louvers of the blocking member such that the window panes move relative to each other in the inner pane and the outer pane,
Wherein the inclination adjusting member includes a restricting member for restraining relative movement of the windshields with each other and a moving member for performing relative movement. The shutoff member intercepts external emission of indoor heat and blocks solar heat by the louver. Integrated two layer glass.
5. The method of claim 4,
Wherein the restraint member is linked in a link so that the inner windshield and the outer windshield move in parallel while being constrained to each other,
Wherein the link is composed of a plurality of two or more upper and lower links, and the inner and outer windshields are connected by a hinge so that the inner windshield and the outer windshield move in parallel while vertically moving relative to each other. Shielding member for blocking solar heat by said louver.
5. The method of claim 4,
The moving member includes:
A moving base coupled with a lower end of the inner window;
And a moving lever for moving the moving base upward and downward to block external radiation of indoor heat and to block solar heat by the louver.
The method according to claim 6,
Wherein the movable base has a slot formed on the opposite side thereof coupled with the inner window,
The moving lever is connected to the housing by a hinge in the middle,
A moving pin which is fitted in the slot of the moving base is disposed at one side of the moving lever about the hinge,
A lever is formed on the other side of the shift lever about the hinge,
As the lever is moved up and down, the moving pin is vertically moved about the hinge, and as the moving pin moves up and down, the moving base and the inner window move up and down, And the louver is disposed at an inclined position, the other side surface of the blocking member is moved up and down as the door is moved up and down, thereby blocking the external emission of the indoor heat and shutting off the solar heat by the louver.

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