KR20160121265A - Fulfill a heat insulating casement - Google Patents

Abstract

The present invention relates to a hinged window provided with a thermal insulation member, in which a rotating frame, rotating at a predetermined angle, on an inner side of a window frame is installed, a connecting thermal insulator connected between a side of a glass window and the rotating shaft is installed, and an insulation panel surrounds the window frame exposed to a room and one side of the rotating frame, thereby preventing inside and outside air from being transferred to the window frame and the rotating frame through the glass window and a space between the glass window and a support member and blocking inflow of the outside air, having flowed in through a space between the window frame and the rotating frame, into the room through the window frame and the rotating frame when a hinged door is opened or closed. The present invention makes the connecting thermal insulator, connected between the rotating frame and the glass window, block the cool or the hot air inside and outside the room, and makes the thermal insulation panel block the inside and the outside air remaining between the window frame and the rotating frame for blocking the inflow of the air into the room, thereby blocking the inflow of the outside cool and hot air into the room to maintain a constant indoor temperature and to increase room cooling and heating efficiency, reducing the driving time of a room cooling and heating device, and lowering energy consumption rate to save energy and enhance product reliability.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat-

The present invention relates to a casement window, and more particularly to a casement window having a heat insulating member having a heat insulating panel and a heat insulating panel interposed between the window frame frame and the rotating frame, will be.

Generally, a casement window is a structure in which a vertical frame of a window is opened and closed with a hinge or the like, and is divided into an inner casement and an outer casement depending on the opening direction.

At this time, the above-mentioned casement window is constructed such that the indoor space and the outdoor space, which are opened and closed at an angle inclined to the direction of the outer wall of the building, are communicated with each other and the outdoor heat or cool air flows into the indoor space through the communicated space, The cold air is discharged outdoors.

The present invention is a metering invention of a casement window (Patent Application No. 10-2014-0064870) having a heat insulating member previously filed by the same applicant.

Patent Document 1 discloses a conventional door frame for indoor flood prevention, which includes a first main body installed along the rim of an opening of a building, and a second main body provided at the front of the first main body, A second body portion connected to the connection member and rotated at a predetermined angle, and a second body portion provided between the first body portion and the second body portion, the gap between the first body portion and the second body portion It consists of an enclosed tube.

At this time, the central portion of the first main body is opened to communicate the inside and outside of the room, and a window for partitioning the room, the inside and outside space is provided at the center of the second main body.

Here, one end of the second main body part is gradually moved away from the first main body part by the wire unwound from the winding device, and the other end is rotated by the connecting member so that the second main body part tilts at a predetermined angle, Make communication.

As the wire is wound on the winding device, the second body part is operated in a direction opposite to the above direction, and the rear surface of the second body part is brought into close contact with the tube.

As described above, by sealing the gap between the first body portion and the second body portion with a tube, water is prevented from flowing through the gap between the first body portion and the second body portion.

However, the above-described Patent Document 1 has the following problems.

First, the outdoor heat or cool air transmitted to the second body part flows into the indoor space through the first body part to cool the indoor air in the winter season or to warm the indoor air in the summer season, There is a problem that the heat or cool air is discharged to the outdoor space through the second main body portion, thereby increasing the cost of maintaining the room temperature.

Secondly, the heating and cooling apparatus must always be operated in order to maintain the temperature state of the room by the heat of the room or the frequent release of cold air through the first main body unit. By operating the heating apparatus, .

Third, during the summer, the first and second main body portions are heated by external heat, and the first and second main body portions are cooled by the external cool air in the winter season so that when a user of the room grasps the second main body portion, There is a problem that the reliability of the product deteriorates due to the occurrence of symptoms, deterioration of cooling and heating efficiency.

KR 10-1351862 B1

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a window frame which is opened at the center of a window frame frame of a casement door, A window pane for blocking the flow of outside air is provided and a connection heat insulating member for connecting between the side surface of the window pane and the rotary frame is provided and the window frame frame and the side surface of the rotary frame exposed to the indoor side are enclosed by the heat insulating panel, The outside air is prevented from being transmitted to the window frame frame and the rotation frame through the space between the windshield and the windshield and the support member and the outside air introduced between the window frame frame and the rotation frame when the hinged door is opened and closed flows into the room through the window frame frame and the rotation frame And a heat insulating member for increasing the cooling and heating efficiency of the room Up to provide a window.

In order to accomplish the object of the present invention, a casement window provided with a heat insulating member according to the present invention is installed so as to face each other with a predetermined distance therebetween, and a supporting member for supporting a side surface of the fixing window is installed on one side surface A fixed frame; And a hinged door rotatably installed between the stationary frame and opened so that the hermetically sealed indoor space communicates with the outside, wherein the hinged door has a frame shape having a central portion penetratingly formed therein A window frame frame fixedly installed between the fixed frames; A rotating frame inserted into the window frame and rotatably installed at both ends of the window frame and rotated at a predetermined angle; An anti-collision member installed on a side opposite to the rotation frame to prevent the rotation frame from colliding with the window frame frame; A glass window installed in front of the rotary frame to block heat or cool air inside or outside the room from being introduced into the room or outdoors; And the other end is fixed to the side surface or the upper and lower surfaces of the windshield so that the outdoor heat or cool air is prevented from being transmitted to the window frame and the rotation frame through the space between the support member and the windshield Connection insulation; And a heat insulating panel installed to surround one side of the window frame frame and the rotary frame exposed in the room side direction, and to prevent the outdoor air outside the room from being introduced into the room.

In the casement window provided with the heat insulating member according to the present invention, the connection heat insulating member is formed in a memory shape and one end is fixed to the rotation frame, and the other end is closely fixed to the side surface of the windshield.

In the casement window having the heat insulating member according to the present invention, the connection heat insulating member is formed in a straight shape and has one end fixed to the rotating frame, and the other end closely fixed to the side surface of the windshield.

In the casement window provided with the heat insulating member according to the present invention, the connection heat insulating material of the casement door has a fitting protrusion at one end thereof to be fitted and fixed to the rotating frame, and at the other end, And a gasket for separating the gap is provided.

In the casement window having the heat insulating member according to the present invention, the window frame frame and the rotation frame are formed with hooks at both sides of one side to be wrapped by the heat insulating panel, and both ends of the window panel frame and the rotation frame And is fixed by being caught by the latching jaws of the latches.

The door opening window provided with the heat insulating member according to the present invention is structured such that the outdoors outdoor air or heat is blocked by the connection heat insulating material connecting between the rotating frame and the windshield so that the outdoor air and heat can not reach the window frame and the rotary frame, The indoor and outdoor air remaining between the window frame frame and the rotary frame is blocked by the heat insulating panel to block the inflow of the indoor air into the room so that the outdoor air and heat are prevented from entering the room, The cooling and heating efficiency is increased, and the energy consumption rate is reduced at the same time as the cooling and heating time is reduced, thereby improving the energy saving effect and the reliability of the product.

1 is a perspective view showing a casement window provided with a heat insulating member according to a first embodiment of the present invention;
Fig. 2 is an exploded perspective view of Fig. 1; Fig.
Fig. 3 is a plan view of the hinged door by cutting the AA portion of Fig. 1; Fig.
FIG. 4 is a view showing a state in which the flow of the yarn, the inside / outside air or the cool air is cut off by cutting the AA portion in FIG. 1;
5 is a plan view of a casement door by cutting a casement window having a heat insulating member according to a second embodiment of the present invention.

[First Embodiment]

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIGS. 1 to 3, the fixed frame 100 is installed to face each other with a predetermined gap therebetween, and a support member 101 for supporting a side surface of the fixed window W is installed on one side.

The fixed frame 100 is installed in a plurality of open spaces of the building at predetermined intervals along the longitudinal direction.

The support member 101 is fixed to one side of the fixed frame 100 and holds or supports the side surface of the fixed window W. [

The hinged door 200 is rotatably installed between the fixed frames 100 so that the hermetically sealed indoor space is opened to communicate with the outside.

The hinge 200 comprises a window frame 210, a rotary frame 220, an anti-collision member 211, a window 230, a joint insulation 240 and a heat insulation panel 250.

The window frame 210 is fixedly installed between the fixed frames 100 in the shape of a frame having a central portion formed therethrough.

The window frame 210 is formed with hooks 212 on both sides of one side to be wrapped by the heat insulating panel 250 and both ends of the heat insulating panel 250 are hooked to the hooking step 212.

The collision preventing member 211 is installed on the side opposite to the rotating frame 230 to prevent the rotating frame 220 from colliding with the window frame 210.

The collision preventing member 211 is pressed against the rotary frame 220 and the joint insulating material 240 to seal the gap between the window frame 210 and the rotary frame 220 and the joint insulating material 240.

Preferably, the collision preventing member 211 is a rubber material that is pressed and restored to the rotating frame 220 and the joint insulating material 240.

The rotating frame 220 is inserted into the window frame 210 and both ends thereof are rotatably installed on the window frame 210 and rotated at a predetermined angle.

The rotating frame 220 is rotatably coupled to the window frame 210 at both ends of the upper portion thereof, and rotates in the outdoors direction.

The rotary frame 220 is formed with a locking protrusion 221 at one side of the one side wrapped by the heat insulation panel 250 and both ends of the insulation panel 250 are hooked on the locking protrusion 221.

The windshield 230 is installed in front of the rotating frame 220 to prevent the indoor air from being discharged to the outside or the outside air from entering the room.

The window 230 may be made of translucent or transparent material so that it can be seen outdoors in the room.

One end of the connection heat insulating member 240 is fixed to the rotary frame 220 and the other end is fixed to the side or upper and lower surfaces of the windshield 230 so that outdoor or cool air is blown from the support member 101 and the windshield 230 To the window frames (210) and the rotation frame (220).

The connection heat insulating member 240 is formed in a memory shape and one end thereof is fixed to the rotation frame 220 and the other end is closely fixed to a side surface or upper and lower surfaces of the windshield 230.

The connection heat insulating member 240 is closed at the edge between the support member 101 and the windshield 230 so that outdoor or cool air is introduced into the room through a gap between the support member 101 and the windshield 230 .

The connection insulator 240 is rotated integrally with the rotation frame 220 and the moment that the rotation frame 220 is in close contact with the window frame 210, (Not shown).

The connection insulator 240 has a fitting protrusion 241 formed at one end thereof to be inserted into and fixed to the rotary frame 220 and a connecting protrusion 241 formed at one end between the supporting protrusion 101 of the fixing frame 100 and the connection insulator 240 A gasket 242 for separating a gap between the gasket 241 and the gasket 242 is provided.

The gasket 242 blocks the inflow of outdoor air or heat into the gap between the support member 101 of the stationary frame 100 and the connection heat insulating member 240.

The connection heat insulating member 240 is formed of a polyamide material to prevent heat or cool air inside or outside the room from being introduced into the room or discharged outdoors.

The heat insulating panel 250 is installed so as to surround one side of the window frame 210 and the rotary frame 220 exposed in the room side direction, and blocks outdoor air from entering the room.

Both ends of the heat insulating panel 250 are caught and fixed to the engagement protrusions 212 and 221 of the window frame frame 210 and the rotation frame 220.

The heat insulating panel 250 may be formed in a U shape so that both ends of the heat insulating panel 250 are fixedly engaged with the engagement protrusions 212 and 221 of the window frame 210 and the rotation frame 220.

The heat insulating panel 250 is preferably made of polystyrene (PS).

The casement window having the above-described heat insulating member according to the present invention is used as follows.

First, a plurality of fixed frames 100 are installed in a row in a predetermined interval in an open portion of a building, and the supporting members 101 are installed on one side of each of the fixed frames 100 so as to be exposed.

A fixed window W is provided between the fixed frames 100 of a predetermined position among a plurality of the fixed frames 100 so that the fixed window W is tightly fixed to the supporting member 101.

Thereafter, a window frame 210 is fixedly installed in a space between the fixed window W and the adjacent fixed frame 100, and a rotating frame 220 is provided inward.

The rotary frame 220 is rotatably coupled to the inner circumferential surface of the window frame 210 at both ends thereof so that the rotary frame 220 is rotated at an angle determined by the window frame 210.

A glass window 230 is provided on the front surface of the rotation frame 220 and the glass window 230 is fixed to the front surface of the rotation frame 220.

The fitting protrusion 241 formed at one end of the memory heat insulating material 240 is fitted and fixed to the rotating frame 220 while the other end of the fitting protrusion 241 is closely attached to the side surface of the window 230, The rotating frame 220 and the windshield 230 are connected to each other.

At this time, the end of the gasket 242 formed at the other end of the connection heat insulating member 240 closely contacts the support member 101 to block the space between the support member 101 and the connection heat insulating member 240.

Then, one side of the window frame 210 and the rotation frame 220 exposed in the room side direction is surrounded by the heat insulating panel 250.

At this time, the heat insulating panel 250 is formed in a 'C' shape and both ends thereof are hooked on the engagement protrusions 212 and 221 of the window frame frame 210 and the rotation frame 220, And covers one side of the frame 220.

4, when the rotary frame 220 of the hinged door 200 installed between the stationary frames 100 is pushed out in the outward direction as described above, The lower end portion of the frame 220 is rotated at a predetermined angle in the outdoor direction so that the room, the inside and outside space are communicated.

In contrast, when the rotary frame 220 of the hinged door 200 is pulled in the indoor direction, the lower end of the rotary frame 220 is rotated at a predetermined angle in the direction of the interior of the rotary frame 220, The impact preventing member 211 is pressed and the gap between the window frame 210 and the joint insulating material 240 and the gap between the window frame 210 and the rotary frame 220 ) Is sealed.

Outside air is left in a space between the window frame 210 and the rotary frame 220 that is hermetically closed by the hinged door 200. The ambient air passes through the window frame 210 and the rotary frame 220 And is blocked by the heat insulating panel 250 and blocked from entering the room.

4, the flow of the outdoor heat or cool air is interrupted by the connection heat insulating member 240 and the gasket 242 so that the gap between the support member 101 of the fixed frame 100 and the windshield 230 It is prevented that heat or cold air is introduced into the room through the space.

The flow of heat or cool air in the room is transmitted to the window frame 210 and the rotation frame 220. The flow of the heat and cool air is blocked by the connection heat insulating member 240 and the gasket 242, .

[Second Embodiment]

In the following description, the same components as those of the first embodiment are denoted by the same reference numerals, and a detailed description thereof will be omitted.

5, one end of the connection heat insulating member 240 is fixed to the rotary frame 220, and the other end is fixed to a side surface or upper and lower surfaces of the windshield 230, 101 and the window pane 230 through the space between the window frame 210 and the window frame 230.

One end of the connection heat insulating member 240 is fixed to the rotation frame 220, and the other end is closely fixed to the side surface of the window 230.

The connection heat insulating member 240 is closed at the edge between the support member 101 and the windshield 230 so that outdoor or cool air is introduced into the room through a gap between the support member 101 and the windshield 230 .

The connection heat insulating member 240 is formed of a polyamide material to prevent heat or cool air inside or outside the room from being introduced into the room or discharged outdoors.

The connection insulator 240 is rotated integrally with the rotation frame 220 and the moment that the rotation frame 220 is in close contact with the window frame 210, (Not shown).

The casement window having the above-described heat insulating member according to the present invention is used as follows.

First, a plurality of fixed frames 100 are installed in a row in a predetermined interval in an open portion of a building, and the supporting members 101 are installed on one side of each of the fixed frames 100 so as to be exposed.

A fixed window W is provided between the fixed frames 100 of a predetermined position among a plurality of the fixed frames 100 so that the fixed window W is tightly fixed to the supporting member 101.

Thereafter, a window frame 210 is fixedly installed in a space between the fixed window W and the adjacent fixed frame 100, and a rotating frame 220 is provided inward.

The rotary frame 220 is rotatably coupled to the inner circumferential surface of the window frame 210 at both ends thereof so that the rotary frame 220 is rotated at an angle determined by the window frame 210.

A glass window 230 is provided on the front surface of the rotation frame 220 and the glass window 230 is fixed to the front surface of the rotation frame 220.

A fitting protrusion 241 formed at one end of the flat connection heat insulating member 240 is fixed to the rotating frame 220 while the other end is fixedly attached to the side surface of the window 230, The rotating frame 220 and the windshield 230 are connected to each other.

At this time, the end of the gasket 242 formed at the other end of the connection heat insulating member 240 is closely attached to the support member 101 to block the gap between the support member 101 and the connection heat insulating member 240.

Then, one side of the window frame 210 and the rotation frame 220 exposed in the room side direction is surrounded by the heat insulating panel 250.

At this time, the heat insulating panel 250 is formed in a 'C' shape and both ends thereof are hooked on the engagement protrusions 212 and 221 of the window frame frame 210 and the rotation frame 220, And covers one side of the frame 220.

When the rotary frame 220 of the hinged door 200 installed between the stationary frames 100 is pushed out in the outward direction as described above, Is rotated at a predetermined angle in the outdoor direction so that the room, the inside and outside space are communicated with each other.

In contrast, when the rotary frame 220 of the hinged door 200 is pulled in the indoor direction, the lower end of the rotary frame 220 is rotated at a predetermined angle in the direction of the interior of the rotary frame 220, The collision prevention member 211 is pressed and the gap between the window frame 210 and the rotary frame 220 is sealed.

Outside air is left in a space between the window frame 210 and the rotary frame 220 that is hermetically closed by the hinged door 200. The ambient air passes through the window frame 210 and the rotary frame 220 And is blocked by the heat insulating panel 250 and blocked from entering the room.

The outdoor heat or cool air flow is interrupted by the connection heat insulating member 240 and the gasket 242 so that the outdoor heat or cold air is blown through the space between the support member 101 of the fixed frame 100 and the windshield 230, Is prevented from entering the room.

The flow of heat or cool air in the room is transmitted to the window frame 210 and the rotation frame 220. The flow of the heat and cool air is blocked by the connection heat insulating member 240 and the gasket 242, .

As described above, the connection heat insulating member 240 is installed to prevent the heat or cool air inside or outside the room from being introduced into or released from the gap between the windshield 230 and the support member 101, The structure for blocking the flow of the refrigerant into the external equipment room between the rotating frame 220 and the rotating frame 220 includes a connection insulator 240 for connecting the rotating frame 220 and the windshield 230, The outdoor air and heat can not reach outside the window frame 210 and the rotary frame 220 and the inside and outside air remaining between the window frame 210 and the rotary frame 220 when the hinged door 200 is opened / The outdoor air is prevented from entering the room, so that the temperature of the room is always kept the same, the cooling and heating efficiency is increased, When cold, radiator is driven Reduced energy consumption and a decrease at the same time has the advantage of being at the same time, energy savings and improved reliability.

It is to be understood that the present invention is not limited to the above-described embodiment, but may be embodied in various forms without departing from the spirit and scope of the invention as claimed in the appended claims. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

100: stationary frame 101: support member
200: a sliding door 210: a window frame
211: collision preventing member 212:
220: rotating frame 221:
230: Windshield 240: Connection insulation
241: fitting projection 242: gasket
250: Insulation panel W: Fixed window

Claims (5)

A fixed frame (100) installed on one side of the fixed window (W) so as to face each other with a predetermined gap therebetween and provided with a supporting member (101) for supporting the side of the fixed window (W); And
A hinged door (200) rotatably installed between the stationary frames (100) and opened so that the hermetically sealed indoor space communicates with the outdoor;
And a heat insulating member formed on the heat insulating member,
The hinged door (200)
A window frame (210) fixedly installed between the fixed frames (100) in a frame shape having a central portion penetrating therethrough;
A rotating frame 220 inserted into the window frame 210 and having opposite ends rotatably mounted on the window frame 210 and rotated at a predetermined angle;
An anti-collision member (211) installed on a side opposite to the rotation frame (230) to prevent the rotation frame (220) from colliding with the window frame (210);
A windshield 230 installed in front of the rotary frame 220 to block heat or cool air inside or outside the room from being introduced into the room or outdoors;
And the other end is fixed to the side surface or the upper and lower surfaces of the windshield 230 so that outdoor or cool air is blown through the space between the support member 101 and the windshield 230 A connection insulating member 240 for blocking transmission to the window frame 210 and the rotation frame 220; And
A heat insulation panel 250 installed to surround one side of the window frame 210 and the rotation frame 220 exposed in the room side direction to block the outdoor air outside the room from entering the room;
And a hermetically sealed container. The method according to claim 1,
The connection insulator (240)
Wherein one end is fixed to the rotating frame (220), and the other end is fixed to the side surface of the windshield (230) in close contact with the window (230). The method according to claim 1,
The connection insulator (240)
And the other end is closely fixed to the side surface of the windshield (230) so that the one end is fixed to the rotation frame (220). 4. The method according to any one of claims 1 to 3,
The connection insulator 240 of the hinged door 200 is connected to the heat-
And a gasket (not shown) that separates the gap between the support protrusion 101 of the stationary frame 100 and the connection insulator 240 is formed at the other end of the gasket 242) are provided on the upper surface of the case (12). The method according to claim 1,
The window frame 210 and the rotation frame 220 have hooks 212 and 221 formed on both sides of one side thereof to be wrapped by the heat insulating panel 250,
Wherein both ends of the heat insulating panel (250) are fastened to the fastening protrusions (212, 221) of the window frame frame (210) and the rotating frame (220).

Images