KR200479863Y1 - Project windows with enhanced insulation - Google Patents

Abstract

The present invention relates to a project window which is opened with a window frame protruding from a window frame frame to open both inside and outside for the purpose of ventilation and ventilation. More particularly, the present invention relates to a project window with improved heat insulation performance It is about the window.
The project window having improved heat insulation performance of the present invention includes a window frame frame forming a mouthpiece at the center and a window frame which is hingedly connected to one side of the window frame frame to open and close the mouthpiece,
Wherein the window frame frame has a base portion and a first extending portion connected by a first heat insulator, wherein the window frame is connected to the first supporting portion and the body portion by a second heat insulator, And the surface of the first support portion is provided with a heat insulating gasket for blocking a heat transfer path by convection from the first support portion to the glass panel side.

Description

Project window with improved insulation performance {PROJECT WINDOWS WITH ENHANCED INSULATION}

The present invention relates to a project window which is opened with a window frame protruding from a window frame frame to open both inside and outside for the purpose of ventilation and ventilation. More particularly, the present invention relates to a project window with improved heat insulation performance It is about the window.

Generally, the project window is a window installed for opening the inside and outside of the curtain wall structure for ventilation and ventilation in a part or all of the outer wall of the building.

The project window has a structure in which a window frame is hinged to one side of a window frame frame fixed to a structural frame of a curtain wall for opening indoor and outdoor, and is opened so as to protrude from the window frame frame.

In addition, a locking means having a handle is provided at one side of the window frame to close the window frame to maintain the closed state.

The angle of opening of the window frame is limited, and various project windows are used according to the opening direction of the upper open, lower open or side open configuration.

However, due to the nature of the project window, it plays a role of opening the inside and outside of the room. Especially, as modern buildings are made into a super high-rise and densified windows, the sizes of windows also have to be enlarged. Therefore, window frames and window frames are manufactured using aluminum materials having high strength and low expansion and durability. And the heat loss is large.

Accordingly, various techniques for minimizing heat loss due to heat conduction of aluminum have been developed, and a representative prior art is disclosed in Korean Patent Registration No. 1153212.

 A double-glazed double-glazed double-glazed double-glazed double-glazed double-glazed double-glazed double-glazed window of Korean Patent Registration No. 1153212 is constructed of a double-glazed window to improve the heat insulation performance. The window frame is divided into first and second chassis members, Structure.

However, in the prior art Korean Patent Registration No. 1153212, the window frame is divided into the first and second chassis members and they are connected by the heat insulating material to prevent heat loss due to direct heat conduction. However, heat loss due to convective heat conduction Is generated.

The object of the present invention is to provide a project window with improved heat insulation performance that can prevent heat conduction by convection by blocking direct heat conduction and conduction by convection There is.

In order to accomplish the above object, a project window having improved heat insulation performance includes a window frame frame forming a mouthpiece at the center, and a window frame which is hingedly connected to one side of the window frame frame to open and close the mouthpiece, In a project window with improved insulation performance,

Wherein the window frame frame has a base portion and a base portion and a first heat insulator at one end of the base portion and extending in the longitudinal direction of the base portion and formed to have an expanded thickness relative to the thickness of the base portion, And a second extending portion extending in a direction perpendicular to the extending direction of the first extending portion in the direction of the center of the through-hole, the first extending portion being formed at one end of the first extending portion,

Wherein the window frame has a first support portion which is placed on an end portion of the glass panel and is hooked on the engagement protrusion when the window frame is rotated and a second support portion extending from one end of the first support portion in a direction parallel to the base portion, And a second supporting portion which is connected to the other end of the first supporting portion by a second heat insulator so as to extend in a direction opposite to the extending direction of the second supporting portion, And a body portion to be engaged,

And a heat insulating gasket is provided on the surface of the first support portion on which the end portion of the glass panel is placed to block a heat transfer path by convection from the first support portion to the glass panel side.

Wherein the heat insulating gasket comprises a close contact portion which is in close contact with the surface of the first supporting portion and a protruding portion which is protruded from the close contact portion and in which a protruding portion of the heat insulating gasket is inserted and fixed to one side of the body portion, Is formed.

A plurality of fixing protrusions protruding in an oblique direction are formed on an outer surface of the protruding portion, and a plurality of oblique fixing grooves are formed on the inner surface of the lead-in groove so as to fit the fixing protrusions.

The second extended portion of the window frame frame hanging on the body portion of the window frame and the first support portion of the window frame which is caught by the engagement protrusion of the window frame frame are provided with airtightness of the window frame and the window frame And an auxiliary airtight member for airtightness between the second supporting portion and the base portion is further provided on the second supporting portion of the window frame.

The window frame is separated into a base portion, a first extending portion and a second extending portion by a first supporting portion, a second supporting portion and a body portion, and the base portion and the first extending portion are divided into a first insulating portion And the first support portion and the body portion are connected to each other by the second heat insulator so that heat loss due to direct heat conduction of the window frame and the window frame can be prevented and the first support portion A heat insulating gasket is installed on the outer surface of the window frame to block the heat transfer path due to convection from the window frame, thereby preventing heat loss due to convection.

FIG. 1 is a perspective view showing a window frame opened in an embodiment of a project window with improved heat insulation performance according to the present invention; FIG.
FIG. 2 is a perspective view showing a state where a window frame is closed with a project window having improved heat insulation performance, which is one embodiment of FIG. 1;
3 is a sectional view taken along the line AA in Fig. 1,
4 is a sectional view taken along line BB in Fig. 1,
FIG. 5 is a perspective view of a main part extracted from the insulating gasket bonding portion in FIG. 3; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a project window with improved heat insulation performance according to the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 illustrate an embodiment of a project window with improved heat insulation performance according to the present invention. Referring to FIGS. 1 and 2, an embodiment of the present invention includes a rectangular A window frame 100 and a window frame 200 hingedly coupled to one side of the window frame 100 to open and close the mouth 300 of the window frame 100 while being rotated.

A locking means having a handle 400 is installed on one side of the window frame 200 to fix the window frame 200 in a shielded state.

3 and 4, the window frame 100 includes a base 110, a first heat insulator 120, and a second heat insulator 120. The window frame 100 includes a base portion 110, 1 extension portion 130, and a second extension portion 140.

The base portion 110, the first heat insulator 120 and the first extension portion 130 are sequentially connected and the second extension portion 140 extends in a direction perpendicular to the first extension portion 130.

The base portion 110 is formed in a plate shape and is formed by bending a certain portion.

The first extension portion 130 is thicker than the base portion 110 because the interior of the first extension portion 130 is in the shape of a hollow square pipe and the base portion 110 is connected to the base portion 110 by the first insulation material 120 So as to form a locking protrusion 131 protruding from the locking protrusion 131.

The second extension portion 140 extends toward the center of the mouth 300 of the window frame 100 and a hermetic member 500 for airtightness of the window frame 100 and the window frame 200 is installed at one side A concave airtight installation groove 141 is formed.

The window frame 200 includes a first support portion 210, a second support portion 220, a second insulation member 230, a body portion 240, and a heat insulating gasket 600.

The first supporting part 210 is disposed at the end of the glass panel 700 and is hooked on the locking protrusion 131 which is the first extended part 130 of the window frame 100 when the window frame 200 rotates, . The first supporting portion 210, which is engaged with the engaging jaw 131, is formed with a concave airtight groove 211 in which the airtight member 500 is provided.

The second support portion 220 extends in a direction perpendicular to the first support portion 210 to support the side surface of the glass panel 700 from one end of the first support portion 210, On the outer surface of the opposed second support portion 220, a concave auxiliary airtight groove 221 is formed in which the auxiliary airtight member 510 is provided.

The body portion 240 is connected to the opposite side of the first supporting portion 210 extending from the second supporting portion 220 by the second heat insulating material 230 and is disposed in a direction opposite to the extending direction of the second supporting portion 220 Extended connection. The body portion 240 is formed in the shape of a square pipe forming a hollow portion therein.

The body portion 240 is in close contact with the hermetic member 500 installed in the second extended portion 140 when the window frame 200 rotates.

On the other hand, the body portion 240 is provided with a locking means having a handle 400.

The locking means is configured such that the lock 410 is selectively protruded by the operation of the handle 400 and the window frame 200 is hooked on the window frame 100 It is used in general project window, and detailed explanation and drawings are omitted.

5 is a perspective view illustrating a heat insulating gasket. Referring to FIG. 5, the heat insulating gasket 600 is formed into a plate shape using a PVC material having excellent heat insulation property. The heat insulating gasket 600 has a first support portion (Not shown). The insulating gasket 600 includes a flat contact portion 610 that is in close contact with the surface of the first support portion 210 and a protruding portion 620 that is vertically protruded from one side of the close contact portion 610.

The inlet portion 250 is formed at one side of the body portion 240 connected to the first supporting portion 210 by the second insulating member 230 to receive the protruding portion 620 of the insulating gasket 600.

A plurality of fixing protrusions 621 protruding in an oblique direction are formed on the outer surface of the protruding portion 620 of the heat insulating gasket 600 and a plurality of fixing protrusions 621 protruding in the diagonal direction corresponding to the fixing protrusions 621, A plurality of fixing grooves 251 are formed.

On the other hand, the above-mentioned first and second heat insulators 120 and 230 have a low thermal conductivity and use azines having similar durability and rigidity to aluminum. This azon is a two-component polyurethane resin insulation material with a thermal conductivity of about 0.98 BTU per inch of thickness, corresponding to 1/1500 of aluminum's conductivity (about 1505 BTU). It also has a high tensile strength of about 5500 PSI.

The window frame 100 connected to the first and second insulating members 120 and 230 and the separate base portion 110 and the first extending portion 130 of the window frame 200, the first supporting portion 210, The portion 240 is formed by extrusion molding into a first integral type, curing the insulation material to be connected to the insulation material, curing the insulation material, and then cutting the insulation material filling the insulation material.

The hermetic member 500 and the auxiliary hermetic member 510 are made of a rubber material such as EPDM (ethylene propylene diene monomer) having good elasticity and adhesion to prevent heat transfer and water tightness.

In addition, the window frame 200 on which the glass panel 700 is placed is provided with an airtight gasket 800. The airtight gasket 800 is installed on one side of the body portion 240 connected to the first support portion 210 on which the glass panel 700 is placed by the second insulation member 230, An airtight gasket 800 is installed.

The airtight gasket 800 is made of a rubber material having good elasticity and adhesion to the airtightness of the window frame 200 and the glass panel 700, Respectively.

Hereinafter, the operation and effect of the project window with improved heat insulation performance, which is one embodiment of the present invention, will be described in detail.

The window frame 100 may have a structure in which the base portion 110 and the first extending portion 130 are connected to each other by the first heat insulating material 120 and the base portion 110 And the first extension portion 130 are prevented by the first heat insulator 120.

The body frame 240 and the first support part 210 are connected to each other by the second insulation material 230 so that the direct heat conduction between the body part 240 and the first support part 210 .

For reference, it can be seen that the heat conductivity of the azon, which is the material of the first and second heat insulators 120 and 230, is 1/1500 as compared with that of aluminum.

Therefore, heat loss due to direct heat conduction through the window frame 100 and the window frame 200 can be prevented.

A heat insulating gasket 600 made of PVC is installed on the outer surface of the first supporting part 210 of the window frame 200 on which the glass panel 700 is placed. Thereby blocking heat radiated in both directions between the first support portions 210. That is, the heat insulating gasket 600 seals a gap that may be formed between the glass panel 700 and the window frame 200 to block a heat transfer path by convection.

Therefore, it is possible to prevent heat loss due to convection of the glass panel 700 and the first supporting part 210, thereby preventing heat loss in the room.

As described above, the project window with improved heat insulation performance, which is one embodiment of the present invention, not only blocks the direct heat conduction of the window frame frame and the window frame but also blocks the indirect heat conduction by the convection to prevent the heat loss more efficiently It is.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. will be.

Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

100: window frame frame 200: window frame
120: first insulation material 230: second insulation material
250: inlet groove 251: fixing groove
600: insulating gasket 620: protruding portion
621: Fixing projection

Claims (3)

And a window frame which is hingedly connected to one side of the window frame and opens and closes the transmission window, the project window having improved heat insulation performance,
Wherein the window frame frame has a base portion and a base portion and a first heat insulator at one end of the base portion and extending in the longitudinal direction of the base portion and formed to have an expanded thickness relative to the thickness of the base portion, And a second extending portion extending in a direction perpendicular to the extending direction of the first extending portion in the direction of the center of the through-hole, the first extending portion being formed at one end of the first extending portion,
Wherein the window frame has a first support portion which is placed on an end portion of the glass panel and is hooked on the engagement protrusion when the window frame is rotated and a second support portion extending from one end of the first support portion in a direction parallel to the base portion, And a second supporting portion which is connected to the other end of the first supporting portion by a second heat insulator so as to extend in a direction opposite to the extending direction of the second supporting portion, And a body portion to be engaged,
A heat insulating gasket is provided on the surface of the first support portion on which the end portion of the glass panel is placed to block a heat transfer path by convection from the first support portion to the glass panel side,
Wherein the heat insulating gasket comprises a close contact portion which is in close contact with the surface of the first support portion and a protruding portion which is protruded from the close contact portion,
Wherein a projecting portion of the heat insulating gasket is inserted into and fixed to one side of the body portion. delete The method according to claim 1,
A plurality of fixing protrusions protruding in an oblique direction are formed on an outer surface of the protruding portion,
And a plurality of fixing grooves in the oblique direction in which the fixing protrusions are fitted are formed on the inner surface of the lead-in groove.

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