KR200473063Y1 - Adiabatic frame for windows - Google Patents

Abstract

The present invention relates to a vertical insulating frame for a window, and more particularly to a vertical insulating frame for a window having a heat insulating effect.
To this end, the heat insulating frame for a window of the present invention has an inner frame member composed of two members spaced apart from each other by a predetermined distance, an outer frame member formed on the outer side of the inner frame member and composed of two members spaced apart from each other, A reinforcing frame member which is formed between the outer frame member and the outer frame member and is composed of two members spaced apart from each other by a predetermined distance and forms at least two closed spaces in which an inner zone is made of a polyurethane material, And an insertion frame member which is inserted between the outer frame members composed of the two members.

Description

Adiabatic frame for windows.

The present invention relates to a vertical insulating frame for a window, and more particularly to a vertical insulating frame for a window having a heat insulating effect.

Generally, a window (window) is a window or door that is installed in an opening of a window or an entrance to block the inside of the building from the outside.

In recent years, windows with a single glass have poor insulation and soundproofing performance. Therefore, double glazing such as fair glass is usually used for windows that are installed on entrance doors of government offices, schools, hospitals, and shopping malls requiring some degree of insulation and soundproofing do.

A window frame used for fixing the double glass is generally formed by a rectangular frame when a door, a window or an inner partition of the room is installed, and the double glass is installed in the inside of the rectangular frame, A door is installed.

In the heat insulating frame for a window having a heat insulation effect, the outer surface portion 111 and the inner surface portion 112 formed with the bending prevention portion 111a are provided at both ends of the side surface portion 113 And a connector insertion portion 115 is formed between a pair of connecting plates 114 spaced apart from one side of the inner surface portion 112. The connecting plate 114 has a locking projection A pair of c-shaped reinforcing frames 110 and 110a bent so as to face each other; A pair of outer sheaths 113 and 113 which continuously surround the outer surfaces of the inner surface portion 112, the side surface portion 113, the outer surface portion 111 and the bending prevention portion 111a excluding the connecting plate 114 and the connector insertion portion 115, A frame 120 (120a); The pair of reinforcing frames 110 and 110a are fitted on both sides of the opposing connector inserting portion 115 and a pair of engaging grooves 131 are formed on both sides of the pair of reinforcing frames 110 and 110a, A heat conduction preventing connector 130 formed in a state of being recessed; And a vertical heat insulating frame 100 formed of wind shielding means 140 and 160 installed between the facing surfaces 121 of the outer frames 120 and 120a facing each other. A heat insulating frame for a window is proposed.

In addition, a connection recess 311 is formed at one side of Korean Patent No. 1144649 (entitled "Insulation Frame for Window"), an azon filling chamber 312 is formed at the tip of the connection recess 311, A reinforcing frame 310 having an azon injection port 313 opened at the tip of the azon filler chamber 312; An azine insulator 320 filled in the azon filler chamber 312; A heat conduction preventing cutout 330 formed at the center of the sealing face 314 facing the azon inlet 313 through a cutting operation after the installation of the azon heat insulating material 320; A pair of outer frames 340 and 340a that continuously surround the inner surface 311a of the connection recess 311 and the outer surface of the reinforcing frame 310; And a vertical heat insulating frame (300) comprising a silicon bonding part (350) which is provided between the pair of outer frames (340, 340a) and the bonding surfaces (342) facing each other. An insulating frame is proposed.

However, the conventional heat insulating frame for windows is still not highly insulating, and is exposed to condensation. Further, when the frame is made of stainless steel, there is a disadvantage that rust occurs in stainless steel due to condensation.

A problem to be solved by the present invention is to propose a vertical insulating frame for a window which is excellent in heat insulation effect and has high thermal efficiency.

Another object to be solved by the present invention is to provide a vertical insulating frame for a window that can prevent condensation.

To this end, the heat insulating frame for a window of the present invention comprises an inner frame member composed of two members spaced apart from each other by a predetermined distance, an outer frame member formed on the outer side of the inner frame member and composed of two members spaced apart from each other by a predetermined distance, A reinforcing frame member which is formed between the outer frame member and the outer frame member and is composed of two members spaced apart from each other by a predetermined distance and forms at least two closed spaces in which an inner zone is made of a polyurethane material, And an insertion frame member which is inserted between the outer frame members composed of the two members.

The present invention proposes a frame member for a window frame in which an inner zone made of polyurethane is formed inside the frame member to prevent the internal heat from flowing out to the outside, thereby providing high heat insulation effect and free from condensation.

In addition, a space between the separated outer frame members is separated using a separate insertion frame member. Also, by forming an air layer composed of at least one or more closed spaces in the reinforcing frame member, it is possible to enhance the heat insulating effect along with the azon region.

1 is a construction diagram of a window to which a heat insulating frame for a window according to an embodiment of the present invention is applied.
FIG. 2 shows a structure of a vertical heat insulating frame for a window according to an embodiment of the present invention.
Fig. 3 shows a structure of a vertical heat insulating frame for a window according to another embodiment of the present invention.

The foregoing and further aspects of the present invention will become more apparent from the following description of the preferred embodiments with reference to the attached drawings. Hereinafter, the embodiments of the present invention will be described in detail so as to be easily understood and reproduced by those skilled in the art.

1 is a construction diagram of a window to which a heat insulating frame for a window according to an embodiment of the present invention is applied. Hereinafter, a construction diagram of a window to which a heat insulating frame for a window according to an embodiment of the present invention is applied will be described in detail with reference to FIG.

Referring to FIG. 1, a window to which a heat insulating frame is applied includes various heat insulating frames which form a framework for constructing a window provided with a tempered glass door adjacent to the wall. That is, the heat insulating frame is divided into a transverse heat insulating frame formed in a transverse direction and a longitudinal heat insulating frame formed in a longitudinal direction. Further, the vertical heat insulating frame is divided into a heat insulating frame, one side of which is in close contact with the window, the other side of which is in close contact with the wall, and a heat insulating frame which is installed in close contact with the window on both sides. Hereinafter, the heat insulating frame, one side of which is in close contact with the window, and the other side of which is installed in a state of being in close contact with the wall, will be described first.

2 shows a structure of a vertical heat insulating frame according to an embodiment of the present invention. Hereinafter, the structure of the vertical heat insulating frame according to one embodiment of the present invention will be described in detail with reference to FIG. Particularly, Fig. 2 shows a cross section of a vertical heat insulating frame.

2, the vertical heat insulating frame is composed of an inner frame member, an outer frame member, an insertion frame member, and a reinforcing frame member formed between the inner frame member and the outer frame member.

The inner frame member 200 is in close contact with the wall, and is made of stainless steel. And two frame members formed to be mutually symmetrical with respect to the inner frame member 200. The shape of the inner frame member 200 is 'C' as a whole, and the inner frame member 200 maintains a state of being spaced apart by a certain distance. The inner frame member 200 includes a first member 202 extending a predetermined length, a second member 204 bent at right angles from the end of the first member 202 and extending to a predetermined length, And a third member 206 which is bent at a right angle from the terminating end and extends to a predetermined length. Of course, the length of the third member 206 is relatively longer than the length of the first member 202.

The outer frame member 210 is configured to surround the inner frame member 200, is in close contact with the window, and is made of stainless steel. The outer frame member 210 is also divided into two frame members that are spaced apart from each other by the same distance as the inner frame member 200. The shape of the outer frame member 210 has a rectangular shape with one side open as a whole. The outer frame member 210 includes a b-member 214, a b-member 214, and a b-member 214 which are bent at right angles from the longitudinal ends of the a-th member 212 and the a- A c-shaped member 216 bent at a right angle from the termination, a c-shaped member 216 extended at a predetermined length, and a d-shaped member 218 bent at right angles to the longitudinal ends of the c-th member 216. Of course, the length of the a-th member 212 and the length of the d-th member 218 are relatively short compared to the length of the b-th member 214 and the length of the c-th member 216. The length of the b-shaped member 214 of the outer frame member 210 is formed to be longer than the length of the second member 204 of the inner frame member 200 so that the outer frame member 210 is formed to be longer than the length of the second member 204 of the inner frame member 200 200).

The reinforcing frame member 220 is positioned between the inner frame member 200 and the outer frame member 210 and is formed of aluminum. The reinforcing frame member 220 is composed of two frame members around the azon region constituted by a high-strength polyurethane material. That is, between the reinforcing frame members 220 constituted by the two frame members, the azon region A composed of the high-strength polyurethane material is located. The AZO region A functions to prevent the heat in the room from being transmitted to the outside of the room, thereby preventing condensation and releasing heat to the outside, thereby doubling the heat insulation effect.

The reinforcing frame member 220 forms a semi-circular groove portion 229 into which the insertion frame member 230 is inserted. In addition, the reinforcing frame member composed of two members functions to prevent the internal heat from being transmitted to the outside by forming two closed spaces inside. The reinforcing frame member 220 forms a blocking portion 228 and the blocking portion 228 is brought into close contact with the end of the spaced apart inner frame member 200 to keep the inner frame member 200 in a spaced apart state. Hereinafter, the structure of the reinforcing frame member will be described in detail.

The reinforcing frame member 220 includes a first member 223 which is in contact with the c-th member 216 of the outer frame member 210 and a second member 223 which is in contact with the third member 206 of the inner frame member 200 221). The A-th member 221 forms the blocking portion 228 so that the inner frame member 200 can be maintained at a predetermined distance as described above.

The reinforcing frame member 220 includes a B-shaped member 222 connecting the center of the C-shaped member 223 and one end of the A-shaped member 221. And a D-member 224 connecting the end of the C-th member 223 with the center of the A-member 221 of the reinforcing frame member 220. The first member 221 to the second member 223 of the reinforcing frame member 220 are formed in a linear shape while the second member 224 of the reinforcing frame member 220 is formed in a shape other than a straight line, And < / RTI >

A portion of the D-shaped member 224 of the reinforcing frame member 220 is in close contact with the d-shaped member 218 of the outer frame member 210 and is provided with a groove portion 229). Then, the D-shaped member 224 of the reinforcing frame member 220 forms a quadrangular-shaped azon region having one side opened to form the azon region A therein. Of course, the reinforcing frame member 220 forms the protruding portion 227 so that the polyurethane introduced into the azon region A can be fixed.

The insertion frame member 230 is formed in a 'C' shape and forms protrusions 232 that are inserted into the groove portions 229 of the reinforcing frame member 220 at both ends. Of course, the insertion frame member 230 is made of a resilient material so that the protrusion of the insertion frame member 230 can be inserted into the groove portion 229 of the reinforcing frame member 220, If not, do not leave.

2, two longitudinally spaced spaces are formed by the reinforcing frame member, and two closed spaces are formed by the inner frame member, the outer frame member, and the reinforcing frame member. As described above, the present invention can increase the heat insulating effect by forming a space in which air can be sealed by using a plurality of frame members.

Fig. 3 shows the structure of a vertical heat insulating frame according to another embodiment of the present invention. Hereinafter, the structure of the vertical heat insulating frame according to another embodiment of the present invention will be described in detail with reference to FIG. Particularly, Fig. 3 shows a cross section of a longitudinal heat insulating frame, and shows a longitudinal heat insulating frame in which both sides are in close contact with a window.

According to Fig. 3, the vertical heat insulating frame is composed of an inner frame member, an outer frame member, an insertion frame member, and a reinforcing frame member formed inside the outer frame member.

The inner frame member 300 is made of stainless steel. And two frame members formed to be mutually symmetric with respect to the inner frame member 300. The shape of the inner frame 300 member is 'C', and it maintains a state of being spaced apart by a certain distance. The inner frame member 300 includes a first member 302 extending in a predetermined length, a second member 304 bent at right angles to the longitudinal ends of the first member 302 and extending to a predetermined length, And a third member 306 which is bent at a right angle from the terminating end and extends to a predetermined length.

The outer frame member 310 is configured to surround the inner frame member 300, is in close contact with the window, and is made of stainless steel. The outer frame member 310 is also divided into two frame members that are spaced apart from each other by the same distance as the inner frame member 300. The shape of the outer frame member 310 has a 'C'. The outer frame member 310 includes a b-member 314, a b-member 314, and a b-member 314 which are bent at right angles from the ends of the a-th member 312 and the a- A c-shaped member 316 which is bent at right angles to the longitudinal end and extends at a right angle from the end of the c-th member 316, a d-shaped member 318 extended to a predetermined length, Is bent at a right angle from the terminating end and is divided into a member 319 having a predetermined length. Of course, the length of the b-member 314 and the length of the d-member 318 are the same, and the length of the b-member 314 and the length of the d-member 318 are the same.

The reinforcing frame member 320 is located inside the outer frame member 310 as described above, and is formed of an aluminum material. The reinforcing frame member 320 is composed of two frame members about the azure region A composed of a high-strength polyurethane material. That is, an azon region made of a high-strength polyurethane material is located between the reinforcing frame members 320 composed of two frame members. The azon area functions to prevent heat from being transmitted to the outside of the room, thereby preventing condensation and releasing heat to the outside, thereby doubling the heat insulation effect.

The reinforcing frame member 320 forms a semi-circular groove portion 329 into which the insertion frame member 330 is inserted. In addition, the reinforcing frame member 320 composed of two members functions to prevent the heat from being transmitted to the outside by forming a large number of closed spaces inside. Hereinafter, the structure of the reinforcing frame member will be described in detail.

The reinforcing frame member 320 includes a first member 321 which is in contact with the b-th member 314 of the outer frame member 310 and a second member which is in close contact with the second member 304 of the inner frame member 300 322). The reinforcing frame member 320 includes a C-shaped member 323 which is in close contact with the d-shaped member 318 of the outer frame member 310.

The reinforcing frame member 320 also includes a D-shaped member 324 extending from the center of the B-shaped member 322 by a predetermined length, and one side of the reinforcing frame member 320 forms an empty sealed space with respect to the D-shaped member 324 , And the other side forms the azon region A in addition to the empty sealed space. The end of the C-th member 323 of the reinforcing frame member and the D-shaped member 324 are connected to the E-shaped member 325. The E element 325 of the reinforcing frame member 320 includes a curved shape for forming the groove 329 in addition to the straight line.

A portion of the E-shaped member 325 of the reinforcing frame member 320 is in close contact with the e-th member 319 of the outer frame member 310 and is provided at a position spaced a predetermined distance from the end of the close- 329). The E-member 325 of the reinforcing frame member 320 then forms a quadrangular-shaped azon region having one side opened to form azon therein. Of course, the projecting portion 327 is formed so that the polyurethane introduced into the azon region can be fixed. F member 326 extends from the end of the E frame member 325 of the reinforcing frame by a predetermined length and the F frame member 326 includes a groove portion 322 in which the projecting portion 332 of the insert frame member 330 is inserted, (328).

The insertion frame member 330 is formed in a 'C' shape and forms protrusions 322 which are inserted into the groove portions 328 and 329 of the reinforcing frame member 320 at both ends thereof. Of course, the insertion frame member 330 is made of a material having elasticity so that the protrusion 332 of the insertion frame member 330 can be inserted into the groove portions 328 and 329 of the reinforcing frame member 320, In the case where no artificial force is applied. As shown in FIG. 3, the vertical frame member with both sides thereof being in close contact with the window includes two insertion frame members each forming two protrusions. To this end, the reinforcing frame member includes four recesses.

3, a plurality of closed spaces are formed by the reinforcing frame member in the vertical heat insulating frame, and a plurality of closed spaces are formed by the inner frame member and the outer frame member. As described above, the present invention can increase the heat insulating effect by forming a space in which air can be sealed by using a plurality of frame members.

While the present invention has been described with reference to exemplary embodiments thereof, 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 scope of the present invention .

200: inner frame member 210: outer frame member
220: reinforcing frame member 230: insertion frame member
202: first member 204: second member
206: third member 212: member a
214: second member 216: third member
218: d-member 219: member e-member
221: a member A 222: a member B
223: member C 224: member D
227: protrusion 229:

Claims (5)

An inner frame member composed of two members spaced apart from each other by a predetermined distance;
An outer frame member formed on the outer side of the inner frame member and composed of two members spaced apart from each other by a predetermined distance;
A reinforcing frame member formed between the inner frame member and the outer frame member, the reinforcing frame member being composed of two members spaced apart from each other by a predetermined distance, the reinforcing frame member forming at least two closed spaces,
Wherein the reinforcing frame member includes an insertion frame member which is inserted into an outer frame member formed of two members, the protrusion being inserted into a groove formed in the reinforcing frame member.
The image forming apparatus according to claim 1, wherein the inner frame member
A first member having a predetermined length;
A second member bent at right angles to the longitudinal end of the first member and extending a predetermined length;
And a third member bent at right angles to the longitudinal end of the second member and extending a predetermined length,
Wherein the outer frame member comprises:
A first member which is in close contact with the first member and has a predetermined length;
A second member that is in close contact with the second member and is bent at a right angle from the end of the first member,
A c-member bent at a right angle from an end of the b-member and extending a predetermined length;
And a d-member bent at a right angle from an end of the c-th member and extending by a predetermined length.
The optical module according to claim 2,
A C-member which is in close contact with the c-th member of the outer frame member;
And a blocking member which is in close contact with the third member of the inner frame member and is formed so as to maintain a state in which two inner members spaced apart from each other by a predetermined distance are spaced apart from each other by a predetermined distance,
A B-member connecting the center of the C-th member and one end of the A-member;
And a D-member connecting the center of the member A and the end of the member C,
Wherein the first member A to the second member C are formed in a straight line shape and the member D is formed in a straight line shape and a curved line shape for forming a groove,
Wherein a part of the D-shaped member is in close contact with the d-shaped member of the outer frame member, and the groove part is formed at a position spaced a predetermined distance from the end of the contact point.
The image forming apparatus according to claim 1, wherein the inner frame member
A first member having a predetermined length;
A second member bent at right angles to the longitudinal end of the first member and extending a predetermined length;
And a third member bent at right angles to the longitudinal end of the second member and extending a predetermined length,
Wherein the outer frame member comprises:
A member having a predetermined length extended;
A second member that is in close contact with the first member and is bent at a right angle from an end of the first member;
A c-member bent at a right angle from an end of the b-member and extending a predetermined length;
A d-member that is in close contact with the third member and is bent at a right angle from the terminus of the c-th member, and has a predetermined length;
And a bending member bent at a right angle from a longitudinal end of the d-axis member and extending to a predetermined length.
5. The straddle-type vehicle according to claim 4,
A first member which is in close contact with a b-th member of the outer frame member;
A second member which is in close contact with the second member of the inner frame member;
A C-member attached to the d-member of the outer frame member;
A D-shaped member extending a predetermined length from the center of the B-th member;
An E-shaped member connecting the end of said C-th member and said D-member, said curved member having a straight shape and a curved shape for forming a first groove portion into which a projection of said first insert frame member is drawn; And
And an F-shaped member extending a predetermined length from the end of the E-shaped member and forming a second groove portion into which a projection of the second insert frame member is inserted.

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