KR20140019178A - Insulating frame for windows and doors improved uniformity - Google Patents

Abstract

The present invention relates to an insulating frame for windows and doors with improved uniformity and especially, for maintaining the standard of an insulating frame for windows and doors always constantly which is completed by making a reinforcement frame and an exterior frame adhere to each other completely when a pair of reinforcement frames are installed to surround the exterior frame, and for improving quality and uniformity of the product remarkably. According to the present invention, a plate spring, which is installed between the exterior frame and the reinforcement frame, pushes the exterior frame to the center so that an outer part of the reinforcement frame and the exterior frame are bonded as adhering to each other completely.

Description

Insulating frame for windows and doors improved uniformity

The present invention is always wrapped in a pair of reinforcement frame to the outer frame when installing the reinforcement frame and the outer frame in close contact with each other completely maintain the standard of the insulation frame for windows and doors always constant, product quality and uniformity It is about the technique which greatly improves.

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.

The window frame used to fix the double glass is usually woven into a rectangular frame when constructing a door, window, or interior partition of a room, and the double glass is installed in or out of an inner region of the rectangular body. The door is installed.

However, in the conventional window frame, both sides of the window glass are in contact with the inside and the outside, respectively, and the window frame is composed of an integral metal plate, so that the heat conduction is good and the dew condensation due to the temperature difference between the inside and the outside is achieved. Of course, due to such condensation, the steel reinforcement frame is easily rusted, rusted water flows down, and a lot of heat lost to the outside causes a problem that the insulation is deteriorated.

In order to solve such a problem, "Patent Registration No. 1144649, Name / Insulation Frame for Window and Window", which is filed and filed by the applicant of the present invention, has been proposed.

In the above-described invention, the Azon insulation material installed in the center of the window insulation frame blocks heat conduction, thereby preventing condensation by eliminating the temperature difference between indoor and outdoor, and reducing energy loss by reducing heat loss to the outside. Provide a useful effect.

Such a pre-registered invention is applied to the adhesive between the outer surface of the reinforcing frame and the outer frame, the outer frame is configured to maintain the mutual integrity by forming a silicon joint by firing silicon on the mutually facing joint surface, As the reinforcing frame and the outer frame are not in close contact with each other or only one of the parts is in a state of curing, the size of the finished insulation frame is not constant, and uniformity is deteriorated, which causes a high defect rate of the product.

In addition, the work frame has to be fixed by using a separate mechanism so that the outer frame does not open to both sides until the silicone is cured, as well as the work efficiency is lowered, even in such troublesome work uniformity of the product This deterioration is a situation that can not be completely solved.

The present invention is to actively solve the improvement that the insulation frame of the above-described invention is included, the leaf spring provided between the outer frame and the reinforcement frame pushes the outer frame to the center of the outer surface of the reinforcement frame And it is to be an object of the present invention to be able to be bonded in a state in which the outer frame is completely in close contact.

The present invention forms a connector insertion portion in each of the inner surface of a pair of opposing reinforcement frame as a means for solving the above problems, and protruding engaging projections on both ends of the inner surface portion, the outer side of the reinforcement frame except the inner surface And install the locking projections wrapped around the outer frame, while inserting the heat conduction prevention connector to the connector insert, install a leaf spring between the locking projections and the inner surface of the outer frame, silicon on the joint surface facing each other between the outer frame The technique for joining and joining the joints is devised.

According to the present invention, the plate spring is pushed to the center of the outer frame to be bonded to the outer surface of the reinforcement frame completely in close contact with the standard of the insulation frame is always constant, product quality and uniformity significantly Provides the effect of improving.

In addition, in the process of curing the silicon shot on the facing surface of the outer frame, even if the external frame is not fixed by using a separate mechanism to prevent the outer frame from spreading to the outside to improve the convenience and work efficiency To provide.

In addition, the heat conduction preventing connector prevents condensation by eliminating the temperature difference between indoor and outdoor by blocking the heat conduction between the reinforcing frames, as well as reducing the heat loss to the outside, further increasing the insulation performance, and significantly saves energy. To provide.

1 is a plan sectional view of an insulating frame for windows and doors according to a first embodiment of the present invention.
2 is a perspective view of the leaf spring of the present invention
Figure 3 is a cross-sectional plan view of the other projection is applied to the insulating frame for windows and doors according to the first embodiment of the present invention
Figure 4 is a cross-sectional plan view of the insulating frame for windows and doors according to a second embodiment of the present invention
Figure 5 is a side cross-sectional view of the insulating frame for windows and doors according to a third embodiment of the present invention
Figure 6 is an enlarged cross-sectional view of the pressed state of the present invention towing projection
Figure 7 is a side cross-sectional view of the insulating frame for windows and doors according to a fourth embodiment of the present invention
Figure 8 is a side cross-sectional view of the insulating frame for windows and doors according to a fifth embodiment of the present invention
9 to 10 is a side cross-sectional view of the reinforcement frame and the outer frame of the insulation frame for windows and doors according to the third to fifth embodiments of the present invention
Figure 11 is a side cross-sectional view of the assembled state of the reinforcement frame and the outer frame of the window insulation frame according to the third to fifth embodiments of the present invention

Preferred embodiments of the present invention will now be described in more detail with reference to the accompanying drawings.

Looking at the overall technical configuration of the insulating frame 100 for windows and doors according to the first embodiment of the present invention based on the accompanying drawings, the connector inserting portion 112 is formed on the inner surface 111 facing the above, A pair of reinforcing frames 110 in which locking protrusions 113 and 114 protrude from both ends of the inner surface portion 111; A pair of exterior frames 120 installed to surround the outside of the reinforcement frame 110 and the outside of the locking protrusions 113 and 114 except for the inner surface portion 111; A heat conduction preventing connector 130 having both sides fitted into the connector inserting portion 112; A plurality of leaf springs 140 installed at intervals between the locking protrusions 113 and 114 and the inner surface of the outer frame 120 to push the outer frame 120 to the center; It can be seen that the organic bonding configuration of the silicon bonding portion 150 bonded to be installed between the facing surface 116 of the outer frame 120.

Hereinafter, the present invention having the above-described schematic configuration will be described in more detail for facilitating the implementation.

The reinforcement frame 110 of the present invention is formed in a separate pair, but the connector insertion portion 112 having one side open on the inner surface portion 111 facing each other is formed, the outer frame at both ends of the inner surface portion 111 Locking projections 113 for locking the fixing so as not to be separated 120 is formed to project each.

A pair of outer frames 120 are provided to surround the outer side of the reinforcing frame 110 and the outer side of the locking protrusion 113 except for the inner surface 111.

The locking protrusion 113 is formed as a vertical portion 113a protrudes integrally with the inner surface portion 111 as shown in FIG. 1, and a horizontal portion 113b is bent at the tip of the vertical portion 113a, but the horizontal portion The 113b is bent inward to face each other so that the outer frame 120 can be fixed to the front end of the horizontal portion 113b.

In addition, as shown in FIG. 3, the locking protrusion 114 has a vertical portion 114a protruding integrally with the inner surface portion 111, and a horizontal portion 114b is bent at the front end of the vertical portion 114a. The portions 114b are bent outwardly to each other to maintain a state in which the outer frame 120 is fixed to the vertical portion 114a.

In this case, the former engaging protrusion 113 and the latter engaging protrusion 114 are different from each other. The former engaging protrusion 113 has a ground area by the outer frame 120 making a linear contact with the tip of the horizontal portion 113b. In contrast to this narrow and small fixation force, the latter locking protrusion 114 has a large ground area due to the surface contact of the outer frame 120 to the vertical portion 114a, which is excellent in fixing force.

The heat conduction prevention connector 130, which is a medium for integrally connecting the pair of reinforcement frames 110, is fitted to both sides of the connector inserting portion 112 so that the reinforcement frame 110 connects the heat conduction prevention connector 130. As it is disposed on both sides as a reference, the heat conduction path transmitted to the outside by conducting heat inside the room is completely disconnected through the reinforcement frame 110, thereby preventing condensation from occurring and heat loss emitted to the outside. By reducing the energy consumption, the insulation effect is doubled and the energy savings are significantly reduced.

A plurality of leaf springs 140 are installed at intervals along the longitudinal direction between the locking protrusions 113 and 114 and the inner surface of the outer frame 120, and the leaf springs 140 are curved as shown in FIG. 2. It is formed in a plate shape.

The leaf spring 140 is centered on the elastic protrusions based on the engaging protrusions 113 and 114 as the pair of reinforcement frames 110 maintain the fixed state integrally connected through the heat conduction preventing connector 130. As it serves to push the outer frame 120 to the center.

In addition, the outer frame 120 is a silicon junction 150 that serves to connect a pair of outer frame 120 integrally as the silicon is cured by firing silicon between the bonding surface 116 facing each other Bonding is provided between the said joining surfaces 116.

Therefore, in the state where the adhesive is applied between the outer surface portion 115 of the reinforcement frame 110 and the outer frame 120, the leaf spring 140 serves to push the outer frame 120 to the center. Accordingly, the exterior frame 120 is completely adhered to the outer surface portion 115 of the reinforcement frame 110 to help fixation of the adhesive and the silicon joint 150, and the exterior frame 120 is moved outward. The insulation frame, which is manufactured by preventing gaps, maintains a constant size at all times and provides a special effect of greatly improving product quality and uniformity.

On the other hand, the window insulation window 200 according to the second embodiment of the present invention can be implemented in the form as shown in Figure 4, the window insulation window 200 is inserted into the connector on the inner surface portion 211 facing A pair of reinforcing frames 210 having a portion 212 formed therein, and protrusions 113 protruding from both ends of the inner surface portion 211; A pair of exterior frames 220 installed to surround the outside of the reinforcing frame 210 and the outside of the locking protrusion 113 except for the inner surface portion 211; A heat conduction preventing connector 230 having both sides fitted into the connector inserting portion 212; A plurality of pushing protrusions 240 formed in the horizontal portion 213b of the locking protrusion 213 to protrude toward the center to push the outer frame 220 toward the center; It can be seen that the organic bonding configuration of the silicon bonding portion 250 bonded to be installed between the facing surface 216 of the outer frame 220.

The window insulation frame 200 according to the second embodiment as described above is a reinforcement frame 110, an outer frame 120, a heat conduction preventing connector 130 constituting the window insulation frame 100 of the first embodiment of the former And the same as the components of the silicon junction 150, but the new component called the pushing projection 240 to replace the leaf spring 140 is different.

That is, the plurality of pushing protrusions 240 are punched at intervals along the longitudinal direction to protrude toward the center on the horizontal portion 213b of the locking protrusion 213 as shown in FIG. When the outer frame 220 is installed to surround the outside of the machine 213, the pushing protrusion 240 serves to push the outer frame 220 toward the center so that the outer surface portion 215 of the reinforcing frame 210 is formed. Since the exterior frame 220 is adhered in a state of being completely in contact with the exterior frame 220, the uniformity of the finished product can be greatly improved.

In addition, the window insulation window 300 according to the third embodiment of the present invention may be implemented in the form as shown in Figure 5 to 6, the window insulation window 300 is the outer side of the upper surface portion 311 The outer surface portion 312 is bent at the tip, and the inner bottom surface of the upper surface portion 311 is formed with a first horizontal surface 314b at the lower end of the first vertical surface 314a and at the tip of the first horizontal surface 314b. A pair of inner surface portions 314 having a configuration in which a second horizontal surface 314d is formed at a lower end of the formed second vertical surface 314c, and a pair of connector inserting portions 316 formed at a tip of the second horizontal surface 314d. Reinforcing frame 310 and; A pair of exterior frames 320 installed to surround the upper surface portion 311, the outer surface portion 312, the first vertical surface 314a, and the second vertical surface 314c; A heat conduction preventing connector 330 having both sides fitted into the connector inserting portion 316; A plurality of towing protrusions 340 are formed to protrude from the upper edge portion of the connector inserting portion 316 to be inclined upwardly and pull downward toward the center while pressing the inner surface 322 of the outer frame 320 when pressed downward. It can be seen that consists of the organic bonding of.

In the reinforcement frame 310 of the window insulation frame 300 according to the third embodiment as described above, the outer surface portion 312 is bent at the outer end of the upper surface portion 311, and is formed at the lower end of the outer surface portion 312. A lower surface portion 313 having one side open is bent, and an inner surface portion 314 is integrally formed on the inner bottom surface of the upper surface portion 311.

The inner surface portion 314 is integrally formed with a first vertical surface 314a on an inner bottom surface of the upper surface portion 311, and has a first horizontal surface 314b formed at a lower end of the first vertical surface 314a. The second horizontal surface 314d is formed at the lower end of the second vertical surface 314c formed at the front end of the first horizontal surface 314b, and the heat conduction prevention connector 330 is connected to the front end of the second horizontal surface 314d. The connector inserting portion 316 is formed.

In addition, a pair of outer frames 320 are provided to surround the upper surface portion 311, the outer surface portion 312, the first vertical surface 314a, and the second vertical surface 314c, respectively, and the connector insertion portion 316 is provided. On both sides of the) the heat conduction prevention connector 330 is fitted.

Here, a technique is applied to the upper edge portion of the connector inserting portion 316 so as to protrude from the plurality of towing protrusions 340 at intervals inclined upwardly.

Accordingly, when the tow protrusion 340 is pushed downward as shown in FIG. 6, the tow protrusion 340 is spread out horizontally, and the outside frame 320 is pressed by pressing the inner surface 322 of the outside frame 320. The outer frame 320 is completely adhered to the outer surface portion 312 of the reinforcing frame 310 while being pulled to the center, thereby greatly improving the precision and uniformity of the finished product.

At this time, between the inner surface 322 and the first vertical surface 314a is formed a sufficient jungle space (341) that can be smoothly pushed when the inner surface 322 is pressed, so that the reinforcement frame 310 is more smoothly This gives the effect of being pulled to the center.

In addition, the window insulation frame 400 according to the fourth embodiment of the present invention can be implemented in the form as shown in Figure 7, the window insulation frame 400 is the outer end of the upper surface portion 411 The outer surface portion 412 is bent, the inner bottom surface of the upper surface portion 411 is formed with an inner surface portion 414 having a configuration in which the horizontal surface 414b is formed at the lower end of the vertical surface 414a, the horizontal surface 414b A pair of reinforcing frames 410 having a connector inserting portion 416 formed at the front end thereof; A pair of exterior frames 420 installed to surround the upper surface portion 411, the outer surface portion 412, and the vertical surface 414a; A heat conduction preventing connector 430 having both sides fitted into the connector inserting portion 416; It is made up of an organic coupling configuration of a plurality of leaf springs 440 installed at intervals between the inner surface 422 and the vertical surface 414a of the outer frame 420 to push the outer frame 420 to the center. .

In the reinforcement frame 410 of the window insulating frame 400 according to the fourth embodiment as described above, the outer surface portion 412 is bent at the outer end of the upper surface portion 411, the lower surface of the outer surface portion 412 A lower surface portion 413 having one side open is bent, and an inner surface portion 414 having a configuration in which a horizontal surface 414b is formed at a lower end of the vertical surface 414a is formed at an inner bottom surface of the upper surface portion 411. A connector inserting portion 416 is formed at the tip of the horizontal surface 414b to connect and install the heat conduction preventing connector 430.

And a pair of outer frame 420 is wrapped around each of the upper surface portion 411, the outer surface portion 412 and the vertical surface 414a, respectively, and the heat conduction preventing connector 430 on both sides of the connector inserting portion 416 ) Is fitted.

In this case, a plurality of leaf springs 440 are installed at intervals along the length direction between the inner surface 422 and the vertical surface 414a of the outer frame 420, so that the leaf springs 440 are a pair of reinforcement frames. As the 410 maintains the fixed state integrally connected through the heat conduction preventing connector 430, the elastic force acts as a center of the vertical surface 414a as a center to push the outer frame 420 to the center. By doing so, the outer frame 420 may be completely adhered to the outer surface portion 412 of the reinforcing frame 410.

On the other hand, the window insulation window 500 according to the fifth embodiment of the present invention can be implemented in the form as shown in Figure 8, the window insulation window 500 is the outer surface at the outer end of the upper surface portion 511 An inner surface portion 514 having a configuration in which the portion 512 is bent and the inner bottom surface of the upper surface portion 511 has a configuration in which a horizontal surface 514b is formed at the lower end of the vertical surface 514a is formed. A pair of reinforcing frames 510 having a connector inserting portion 516 formed at a front end thereof; A pair of exterior frames 520 installed to surround the upper surface portion 511, the outer surface portion 512 and the vertical surface 514a; A heat conduction preventing connector 530 having both sides fitted into the connector inserting portion 516; A plurality of traction protrusions 540 are formed to protrude curvedly inwardly at an inner surface 522 of the outer frame 520 to pull the outer frame 520 toward the center while being supported by the vertical surface 514a. It consists of an organic bonding composition.

The insulating window frame 500 according to the fifth embodiment as described above is the reinforcement frame 410, the outer frame 420 and the thermal conductivity preventing connector 430 constituting the window insulating frame 400 of the fourth embodiment of the former It is the same as the component of the different from the new component graft plural traction projections 540 replacing the leaf spring 440 is different.

That is, the plurality of tow protrusions 540 protrude from the inner surface 522 of the outer frame 520 at intervals inwardly as shown in FIG. 8 so that the tow protrusions 540 are supported on the vertical surface 514a. The outer frame 520 may be pulled to the center in a state such that the outer frame 520 is completely adhered to the outer surface 512 of the reinforcing frame 510.

The insulating frames 300, 400 and 500 for the windows according to the third to fifth embodiments are the lower surfaces 313 and 413 of the reinforcement frames 310, 410 and 510 as shown in FIG. The lower surfaces 324, 424, and 524 of the exterior frames 320, 420, and 520 surrounding the 513 are bent upwardly inclined to press the lower portions 313, 413, 513 upward. While maintaining a more solid integrity while providing a new effect to prevent the outer frame 320, 420, 520 is pushed or detached from side to side.

In addition, the outer frame 320, 420, 520 surrounding the lower surface portion 313, 413, 513 and the lower surface portion 313, 413, 513 of the reinforcement frame 310, 410, 510. 10 are formed by punching a plurality of binding protrusions 517 and 527 to be inclined upward at the same position as shown in FIG. 10 to form the lower surfaces 324, 424, and 524 of the exterior frames 320, 420, and 520. The binding protrusion 527 is fitted into the punching groove 518 at the point where the binding protrusions 517 of the lower surface portions 313, 413, and 513 is formed, and thus maintains a solid integrity with respect to the exterior frame 320 ( 420, 520 provides a new effect to prevent the side from being pushed or detached from side to side.

In addition, the outer frame 320, 420, (420) surrounding the lower surface portions 313, 413, 513 and the lower surface portions 313, 413, 513 of the reinforcement frames 310, 410, 510 ( The punching protrusions 519 and 529 are simultaneously formed on the lower surfaces 324, 424 and 524 of the 520 so as to protrude upward in the same position as shown in FIG. 11. As the castle is maintained, the exterior frames 320, 420 and 520 may be prevented from being pushed from side to side or detached.

100, 200, 300, 400, 500: window insulation
110, 210, 310, 410, 510: reinforcement frame
111, 211, 314, 414, 514: Inside
112, 212, 316, 416, 516: connector insert
113, 114, 213: Obstructions
115, 215, 312, 412, 512: outer surface
120, 220, 320, 420, 520: External frame
130, 230, 330, 430, 530: thermally conductive connectors
140, 440: leaf spring
150, 250: silicon junction
240: pushing protrusion
311, 411, 511: upper part
313, 413, 513: lower part
324, 424, 524:
340: tow protrusion
341: jungle space
517, 527: Binding protrusion
519,529: punching protrusion
540: tow protrusion

Claims (8)

A pair of reinforcing frames 110 having a connector inserting portion 112 formed on the inner surface portion 111 facing each other, and protrusions 113 and 114 protruding from both ends of the inner surface portion 111;
A pair of exterior frames 120 installed to surround the outside of the reinforcement frame 110 and the outside of the locking protrusions 113 and 114 except for the inner surface portion 111;
A heat conduction preventing connector 130 having both sides fitted into the connector inserting portion 112;
A plurality of leaf springs 140 installed at intervals between the locking protrusions 113 and 114 and the inner surface of the outer frame 120 to push the outer frame 120 to the center;
Insulation frame for improved windows and doors, characterized in that made of a silicon bonding portion 150 bonded to be installed between the facing surface 116 of the outer frame 120 facing.
The method of claim 1,
The locking protrusion 113 has a vertical portion 113a integrally protruding from the inner surface portion 111, and a horizontal portion 113b is bent at the tip of the vertical portion 113a, but the horizontal portion 113b faces each other. Is formed inwardly bent, the insulation frame for improved windows and doors, characterized in that the outer frame 120 is fixed to the front end of the horizontal portion (113b).
The method of claim 1,
The locking protrusion 114 has a vertical portion 114a protruding integrally with the inner surface portion 111, and a horizontal portion 114b is bent at the tip of the vertical portion 114a, but the horizontal portion 114b is outward. Is formed to be bent, the insulation frame for improved windows and doors, characterized in that the outer frame 120 is fixed to the vertical portion (114a).
A connector insertion portion 212 is formed at the inner surface portion 211 facing each other, and a pair of reinforcement frames 210 having protrusions 113 formed at both ends of the inner surface portion 211 protruding from each other;
A pair of exterior frames 220 installed to surround the outside of the reinforcing frame 210 and the outside of the locking protrusion 113 except for the inner surface portion 211;
A heat conduction preventing connector 230 having both sides fitted into the connector inserting portion 212;
A plurality of pushing protrusions 240 formed in the horizontal portion 213b of the locking protrusion 213 to protrude toward the center to push the outer frame 220 toward the center;
Insulation frame for improved windows and doors, characterized in that made of a silicon bonding portion 250 bonded to be installed between the facing surface 216 of the outer frame 220 facing.
An outer surface portion 312 is bent at an outer end of the upper surface portion 311, and a first horizontal surface 314b is formed at a lower end of the first vertical surface 314a on the inner bottom surface of the upper surface portion 311 and the first An inner surface portion 314 having a configuration in which a second horizontal surface 314d is formed at a lower end of the second vertical surface 314c formed at the front end of the horizontal surface 314b is formed, and a connector insertion portion is formed at the end of the second horizontal surface 314d. A pair of reinforcing frames 310 formed with 316;
A pair of exterior frames 320 installed to surround the upper surface portion 311, the outer surface portion 312, the first vertical surface 314a, and the second vertical surface 314c;
A heat conduction preventing connector 330 having both sides fitted into the connector inserting portion 316;
A plurality of towing protrusions 340 are formed to protrude from the upper edge portion of the connector inserting portion 316 to be inclined upwardly and pull downward toward the center while pressing the inner surface 322 of the outer frame 320 when pressed downward. Uniform insulation frame for improved windows, characterized in that consisting of.
6. The method of claim 5,
Insulation frame for improved windows and doors, characterized in that between the inner surface 322 and the first vertical surface (314a) is formed a jungle space (341) that can be pushed while the inner surface (322) is pressed.
An inner surface portion 414 having a configuration in which an outer surface portion 412 is bent at an outer end of the upper surface portion 411, and a horizontal surface 414b is formed at a lower end of the vertical surface 414a on the inner bottom surface of the upper surface portion 411. And a pair of reinforcing frames 410 having connector inserting portions 416 formed at the front end of the horizontal surface 414b;
A pair of exterior frames 420 installed to surround the upper surface portion 411, the outer surface portion 412, and the vertical surface 414a;
A heat conduction preventing connector 430 having both sides fitted into the connector inserting portion 416;
Uniformity, characterized in that consisting of a plurality of leaf springs 440 are installed at intervals between the inner surface 422 and the vertical surface 414a of the outer frame 420 to push the outer frame 420 to the center Insulation frame for windows and doors with improved properties.
An inner surface portion 514 having a configuration in which an outer surface portion 512 is bent at an outer end of the upper surface portion 511, and a horizontal surface 514b is formed at a lower end of the vertical surface 514a on the inner bottom surface of the upper surface portion 511. A pair of reinforcing frames 510 having a connector inserting portion 516 formed at the front end of the horizontal surface 514b;
A pair of exterior frames 520 installed to surround the upper surface portion 511, the outer surface portion 512 and the vertical surface 514a;
A heat conduction preventing connector 530 having both sides fitted into the connector inserting portion 516;
A plurality of traction protrusions 540 are formed to protrude curvedly inwardly at an inner surface 522 of the outer frame 520 to pull the outer frame 520 toward the center while being supported by the vertical surface 514a. Uniform insulation frame for improved windows, characterized in that consisting of.

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