KR102135946B1 - Project window with enhenced insulation - Google Patents

Abstract

The present invention provides a project window with improved insulating properties. According to one aspect of the present invention, the project window includes: a glass panel having light penetrability; a windowsill frame fixed to a building; and a window frame coupled to the windowsill frame to be rotatable with respect to the windowsill frame, wherein the windowsill frame includes: a main frame formed in a pipe shape; a blocking plate protruding from the main frame to face the window frame; an insulation support coupled to the front end of the main frame, having an inner space, and made of a synthetic resin material; and an insulation connecting member inserted into the insulation support in a portion to which the insulation support is connected so that the insulation support is supported, and formed in an L-shape.

Description

PROJECT WINDOW WITH ENHENCED INSULATION}

The present invention relates to a project window that can open and close an opening in a building, and more particularly, to a project window with improved insulation.

Generally, windows are installed in buildings for the purpose of viewing, skylighting, ventilation, etc., and the types of windows are project windows and secretary windows. The project window is a window that is opened and closed so that the window frame protrudes from the window frame. The upper and lower ends or side ends of the window frame may protrude to the outside.

In the situation where the size of windows is inevitably enlarged as modern buildings become super-high-rise and dense, the aluminum is superior in aluminum with high strength, low expansion, durability, and ignition temperature higher than conventional PVC, but aluminum has high thermal conductivity and convection. It has the disadvantage that the loss due to it is large. Most of the factors that decrease the window performance are due to the large heat loss of the aluminum frame. The window performance is evaluated as the average value of the glass and the frame, and the heat loss in the frame using aluminum is much greater than the glass panel using Roy Film.

In order to solve this problem, a composite window connecting aluminum to an insulating material is applied, but in the case of a composite window, manufacturing cost increases and installation is complicated. In addition, even in the case of a composite window, there is a problem in that heat loss occurs because the frame made of aluminum exposed to the outside of the building is located inside the sealed space sealed with the gasket.

Republic of Korea Patent Publication No. 10-2017-0017393

Based on the technical background as described above, the present invention provides a project window with improved thermal insulation properties.

The project window according to an aspect of the present invention includes a glass panel having light transmittance, a window frame frame fixed to a building, and a window frame rotatably coupled to the window frame frame, wherein the window frame frame is tubular The main frame made of, a blocking plate protruding from the main frame and facing the window frame, coupled to the front end of the main frame, having an internal space, an insulating support made of synthetic resin material, and a portion connected to the insulating supports within the insulating support It is inserted to support the heat insulating supports, and includes an L-shaped heat insulating connecting member.

In addition, the outer surface of the heat insulating connection member is in contact with the inner surface of the heat insulating support, a plurality of inclined walls may be formed.

In addition, the inclined walls may be formed in a stripe shape to form a plurality of thermal barrier spaces between the heat insulating supports.

In addition, the inclined wall may be formed to extend from one edge to the other edge of the insulating connection member.

In addition, the heat insulating connecting member has an L-shape but includes a side surface made of a plane facing each other and an inner surface and an outer surface connecting the side surfaces, and the inclined wall may be formed on the inner surface and the outer surface, respectively.

In addition, a reinforcing rib protruding from a surface facing each other is formed on the inner surface of the heat insulating support in the longitudinal direction of the heat insulating support, and a groove part into which the reinforcing rib is inserted is formed in the heat insulating connecting member, and the inclined wall is formed with It may be formed from a connected edge to an edge connected to the groove.

In addition, the heat insulating connecting member has an L-shape, but includes a side surface made of a plane facing each other and an inner surface and an outer surface connecting the side surfaces, and the inclined wall may be formed on the side surface.

In addition, the heat insulation connecting member includes a first bar and a second bar bent at a right angle from the first bar, and the inclined wall is formed in a stripe shape extending from one edge to the other, and has a straight inclined wall and an L-shape. A curved inclined wall may be connected, but the curved inclined wall may be formed at a portion where the first bar and the second bar are connected.

In addition, the heat insulating connecting member includes a first bar and a second bar bent at a right angle from the first bar, and continues in an L-shape, but has a side surface made of planes facing opposite directions and an inner surface and an outer surface connecting the side surfaces. The inclined wall includes a first inclined wall formed on the inner surface and the outer surface, a second inclined wall formed on a side surface and formed in a stripe shape, and connecting the first inclined wall and the second inclined wall in a fan shape. Consists of a curved third inclined wall, it may be formed on the side surface may include a fourth inclined wall connected in an L shape.

As described above, the project windows and doors according to one aspect of the present invention can not only improve insulation performance by installing an insulation support at the front end of a window frame, but also improve the structural strength by inserting an insulation connection member into the insulation support. Thermal insulation can be further improved.

1 is a view showing a closed state of the project window according to the first embodiment of the present invention.
FIG. 2 is a longitudinal sectional view taken along line II-II in FIG. 1.
3 is an enlarged view of A1 in FIG. 2.
4 is a perspective view showing an insulating connection member according to a first embodiment of the present invention.
5 is a longitudinal sectional view showing an insulating connection member according to a first embodiment of the present invention.
6 is a perspective view showing an insulating connection member according to a second embodiment of the present invention.
7 is a perspective view showing an insulating connection member according to a third embodiment of the present invention.

The present invention can be applied to a variety of transformations and may have various embodiments, and thus, specific embodiments will be illustrated and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all conversions, equivalents, and substitutes included in the spirit and scope of the present invention.

The terms used in the present invention are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present invention, terms such as'include' or'have' are intended to designate the existence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, and one or more other features. It should be understood that the existence or addition possibilities of fields or numbers, steps, operations, components, parts or combinations thereof are not excluded in advance.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in this case, the same components in the accompanying drawings are denoted by the same reference numerals as possible. In addition, detailed descriptions of well-known functions and configurations that may obscure the subject matter of the present invention will be omitted. For the same reason, some components in the accompanying drawings are exaggerated, omitted, or schematically illustrated.

Hereinafter, the project window according to the first embodiment of the present invention will be described.

1 is a view showing the closed state of the project window according to the first embodiment of the present invention, FIG. 2 is a longitudinal sectional view taken along line II-II in FIG. 1, and FIG. 3 is an enlarged view of A1 in FIG. 2 It is a drawing shown.

1 to 3, the project window 10 according to the first embodiment is rotatable with respect to the window frame frame 200 and the window frame frame 200 fixed to the glass panel 100 and the building structure. And a window frame 300 supporting the glass panel 100.

The window frame frame 200 is formed in a square frame shape, and the window frame frame 200 includes a main support 210, a blocking plate 220, and an insulating support 230. The main support 210 is made of metal, and in particular can be made of aluminum. The main support 210 is formed in a tube shape having an internal space, and a vertical portion (a portion extending in the z-axis direction) and a horizontal portion (a portion extending in the y-axis direction) are connected to form a square frame.

A fixing groove 212 for coupling with the heat insulating support 230 may be formed at the tip of the main support 210. The main support 210 may be formed in a square tube shape, and an insulating foam may be inserted into the inner space of the main support 210.

A blocking plate 220 protruding in a direction toward the inside of the width direction of the glass panel 100 (z-axis direction) is formed at a rear end of the main support 210. A first sealing groove 221 for installation of the first sealing gasket 250 is formed on a surface of the blocking plate 220 facing the glass panel 100. A first sealing gasket 250 is installed in the first sealing groove 221 that comes into contact with the rear support member 320, and the first sealing gasket 250 protrudes rearwardly into the tube body 251 and the tube body 251. It includes a hook portion 252, the hook portion 252 is inserted into the first sealing groove (221). The tube body 251 may be made of tubular but elastically deformable rubber, silicone, or the like, and the hook portion 252 has a jaw protruding laterally.

The heat insulating support 230 is coupled to the front end of the main support 210 to support the window frame 200, and blocks heat transmitted to the main support 210. The insulating support 230 is made of synthetic resin, but may be made of polyimide (PI).

The insulating support 230 is made of a tubular shape having an internal space, and four insulating supports 230 are connected to form a square frame. The longitudinal end of the heat insulating support 230 may be cut to 45 degrees and installed to abut against each other. A coupling protrusion 231 inserted into the fixing groove 212 may be formed on the rear surface of the heat insulating support 230. In addition, a second sealing groove 232 for the installation of the second sealing gasket 240 is formed at the tip of the heat insulating support 230. A second sealing gasket 240 is installed in the second sealing groove 232 that comes into contact with the side support member 310, and the second sealing gasket 240 protrudes rearwardly into the tube body 241 and the tube body 241. It includes a hook portion 242, the hook portion 242 is inserted into the second sealing groove (232). The tube body 241 may be made of tubular but elastically deformable rubber, silicone, or the like, and the hook portion 242 has a jaw protruding laterally. The first sealing gasket 250 and the second sealing gasket 240 block the inflow of external air and form a sealing space S1.

Inside the heat-insulating support 230, a reinforcement rib 235 protruding inward is formed. The reinforcing ribs 235 are formed to protrude symmetrically from the inner surfaces facing each other of the heat insulating support 230 and are formed to extend in the longitudinal direction of the heat insulating support 230. The reinforcing rib 235 may reduce the convection inside the heat insulating support 230 to improve the heat insulation performance, and also form the structural strength of the heat insulating support 230.

4 is a perspective view showing an insulating connection member according to a first embodiment of the present invention, and FIG. 5 is a longitudinal cross-sectional view showing an insulating connection member according to a first embodiment of the present invention.

4 and 5, a heat insulating connecting member 260 is installed in a corner portion to which the heat insulating supports 230 are connected. The four heat insulating connection members 260 are inserted into the heat insulating support 230 to support the heat insulating supports 230 to maintain a square frame shape. The insulating supports 230 are supported only by the insulating connection member 260, and a separate screw is not installed.

The insulating connecting member 260 is made of a non-metallic material, but is made of a polymer material having a low thermal conductivity, and the insulating connecting member 260 has a greater strength than the insulating support 230. The insulating connection member 260 may be made of polyvinyl chloride (PVC). Conventionally, the corner connecting member is made of metal, and the corner connecting member and the tube member are coupled by screws or the like. However, if a corner connecting member made of metal is installed and fixed by a screw, heat may be transferred from the pipe member to the corner connecting member through the screw and the contact surface, resulting in deterioration of thermal insulation performance. However, if the insulating connection member 260 made of a polymer material is installed as in this embodiment, but fixed only by the inclined wall 266 without screws, heat loss can be minimized.

The insulating connection member 260 is formed of an L-shaped rod and includes a first rod 260a and a second rod 260b bent at a right angle from the first rod 260a. In addition, the heat insulating connecting member 260 includes an inner surface 262 and an outer surface 263 connecting the side surface 261 and the side surface 261 formed of planes facing in opposite directions. The inner surface 262 is a surface facing the center of the glass panel 100 and the outer surface 263 is a surface facing the opposite direction to the inner surface 262.

The heat insulating connecting member 260 is formed with a groove portion 265 into which the reinforcing rib 235 is inserted, and the groove portion 265 is formed at the center of the inner surface 262 and the outer surface 263 in the width direction, but extends to the outer end. Accordingly, the heat insulating connecting member 260 has an approximately H-shaped cross section.

On the inner surface 262 and the outer surface 263, a plurality of inclined walls 266 formed to be inclined with respect to the inner surface 262 and the outer surface 263 are formed, and the inclined wall 266 is formed to have a length greater than its height. Here, the height refers to the distance from the portion where the surface of the inclined wall 266 and the insulating connecting member 260 is protruded to the top, and the length is the distance between the surfaces of the inclined wall 266 and the insulating connecting member 260. it means. The inclined wall 266 is formed in a stripe shape extending from one edge to the other edge of the surface of the heat insulating connecting member 260, but is made of a structure cut in the couple where the groove 265 is formed. Here, the stripe shape means a shape that is parallel to a straight line. Four corners are formed on the inner and outer surfaces of the insulating connection member 260 by the grooves 265, and the inclined wall 266 extends from the edge connected to the side to the edge connected to the groove 265, and the groove 265 The inclined walls 266 are separated at the portion where is formed.

The inclined wall 266 is formed to be inclined in the direction toward the corner of the heat insulating connecting member 260, and the angle formed by the inclined wall 266 and the inner surface 262 or the outer surface 263 may be 15 to 75 degrees. The inclined wall 266 is formed to protrude in a direction opposite to the direction fitted to the heat insulating support 230 so that it can be easily fitted with the heat insulating support 230. The inclined wall 266 may have elasticity that is elastically deformed when abutting the inner surface of the heat insulating support 230. The inclined wall 266 may contact the inner surface of the heat insulating support 230 to form a plurality of thermal barrier spaces, thereby improving heat insulation.

2 and 3, the glass panel 100 is made of a square plate shape, and two glass plates are made of a structure spaced apart from the interleaving frame. The glass plate can generally be made of tempered glass applied to a window.

The window frame 300 is made of a square frame shape supporting the glass panel 100, and is rotatably coupled to the window frame frame 200. The window frame 300 is coupled to the side support member 310, the heat insulating member 330, and the heat insulating member 330, and the rear support spaced apart from the side end of the glass panel 100 at an inner side (z-axis direction). It includes a member 320.

The side support member 310 is attached to the glass panel 100 to support the glass panel 100, and includes a side plate 311, a back plate 312, and a rear support portion 315. In addition, the side supporting member 310 may be installed to surround the four sides of the glass panel 100, and the inner upper portion is fixed to the rear supporting member. The side support member 310 may be made of metal.

The side plate 311 is fixed to the side of the glass panel 100 to support the side end of the glass panel 100. The side plate 311 is fixed to the side of the glass panel 100 via an adhesive member 150, and the adhesive member 150 may be made of silicon or the like. The outer sealing member 352 is installed on the outside of the side plate 311, and the outer sealing member 352 is in contact with the structure of the building to block outside air from entering.

The back plate 312 is bent at the side plate 311 and is disposed to face the rear surface of the glass panel 100. In addition, the lower portion of the back plate 312 is in contact with the second sealing gasket 240. The rear support portion 315 is formed to bend backward from the rear plate 312 and includes a protrusion fixing the heat insulating member 330.

The rear support member 320 is spaced apart at predetermined intervals inward from the side end of the glass panel 100 and is formed in a tube shape having an internal space 322. The rear support member 320 is made of metal, and in particular may be made of aluminum. The rear support member 320 is formed with a protruding fixing part 323 protruding and fixing the heat insulating member 330. The insulating member 330 connects the side support member 310 and the rear support member 320 but blocks heat from being transferred to the side support member. The heat insulating member 330 is made of a rod shape and may be made of a polymer material having excellent heat insulating performance.

The rear support member 320 located at the lower portion of the window frame 300 is provided with a handle 361 and a lock 362 connected to the handle 361. The clamp 362 is installed to be rotatable together with the handle 361 and is coupled to a locking jaw 365 installed in the window frame frame 200 located at the bottom to prevent rotation of the glass panel 100 and lock the window. .

A foam adhesive 161 and a silicone adhesive layer 162 are formed between the rear support member 320 and the glass panel 100. The foam adhesive portion 161 is made of a porous adhesive tape, and the silicone adhesive layer 162 is made of cured silicone.

When the heat insulating support 230 is coupled to the front end of the main support 210 as in the first embodiment, heat transmitted to the main support 210 is blocked to improve heat insulation efficiency.

In addition, when the reinforcing rib 235 is inserted into the groove portion 265 of the heat insulating support 230, the heat insulating support 230 and the heat insulating connecting member 260 can be stably combined as well as the heat insulating support 230 connected The strength of the corner portion can be improved. In addition, since the inclined wall 266 is formed on the heat insulating connecting member 260, the heat insulating support 230 and the heat insulating connecting member 260 may be more stably combined. In addition, since the inclined wall 266 is formed in a stripe shape, the upper end of the inclined wall 266 is elastically deformed, so it is easy to install and traps air in the space between the inclined walls 266, thereby improving heat insulation performance. .

Hereinafter, the project window according to the second embodiment of the present invention will be described. 6 is a perspective view showing an insulating connection member according to a second embodiment of the present invention.

Referring to FIG. 6, the project window according to the second embodiment is made of the same structure as the project window according to the first embodiment except for the insulating connection member, and thus a duplicate description of the same configuration will be omitted. .

The insulating connection member 460 is installed in a corner portion to which the insulating supports are connected to support the insulating supports. Four insulating connecting members 460 are installed on the project window, and the insulating connecting members 460 are inserted into the insulating supports to support the insulating supports to maintain a rectangular frame shape.

The insulating connection member 460 is formed of an L-shaped bar and includes a first bar 460a and a second bar 460b bent at a right angle from the first bar 460a. In addition, the heat insulating connecting member 460 includes an inner surface 462 and an outer surface 463 connecting the side surface 461 and the side surface 461 formed of planes that are connected in opposite directions to each other in an L shape. The inner surface 462 is a surface facing the center of the glass panel, and the outer surface 463 is a surface facing the opposite direction to the inner surface 462. The inner surface 462 and the outer surface 463 have a structure in which planes are vertically connected.

The insulating connection member 460 is formed with a groove portion 465 into which a reinforcing rib is inserted, and the groove portion 465 is formed in the center of the inner surface 462 and the outer surface 463 in the width direction, but extends to the outer end. Accordingly, the heat insulating connection member 460 has approximately H-shaped heat insulation.

An inclined wall 500 is formed on a side surface of the insulating connection member 460, and the inclined wall 500 is formed to have a length greater than its height. The inclined wall 500 includes a straight inclined wall 510 and a curved inclined wall 520 connected in an L shape in a stripe shape extending from one edge to the other edge of the surface of the heat insulating connecting member 460. The straight inclined wall 510 is disposed outside on the side surface 461, and the curved inclined wall 520 is disposed on a central portion where the first bar 460a and the second bar 460b are connected at the side surface. The inclined inclined wall 520 is inserted into different insulated supports to support the insulated support, and a portion of the inclined inclined wall 520 is inserted into a vertically insulated support and the other portion of the inclined inclined wall 520 is laid horizontally It can be inserted into a true heat insulating support to support the heat insulating support.

The inclined wall 500 is formed to be inclined in the direction toward the center of the heat insulating connecting member 460, and the angle formed by the inclined wall 500 and the side surface 461 may be 15 to 75 degrees. The inclined wall 500 is formed to protrude in a direction opposite to the direction fitted to the heat insulating support so that it can be easily fitted with the heat insulating support.

When the inclined wall 500 is formed on the side surface of the heat insulation connecting member 460 as in the second embodiment, the heat insulation support is stably fixed without the aid of a fastener such as a screw, so that structural strength can be improved. In addition, the inclined wall 500 of the insulating connection member 460 not only blocks air from entering the gap of the portion to which the insulating support is connected, but also blocks air from escaping from the inside of the insulating support, thereby improving insulating performance. In addition, since the inclined inclined walls 520 are inserted into different heat insulating supports, the heat insulating supports can be more stably combined and the height of strength can be improved.

Hereinafter, the project window according to the third embodiment of the present invention will be described. 7 is a perspective view showing an insulating connection member according to a third embodiment of the present invention.

Referring to FIG. 7, the project window according to the third embodiment is made of the same structure as the project window according to the first embodiment except for the insulating connection member, and thus a duplicate description of the same configuration will be omitted. .

The insulating connection member 660 is installed in a corner portion to which the insulating supports are connected to support the insulating supports. Four insulating connecting members 660 are installed on the project window, and the insulating connecting members 660 are inserted into the insulating supports to support the insulating supports to maintain a square frame shape.

The insulating connection member 660 is formed of an L-shaped bar and includes a first bar 660a and a second bar 660b bent at a right angle from the first bar 660a. In addition, the heat insulating connecting member 660 includes an inner surface 662 and an outer surface 663 connecting the side surface 661 and the side surface 661 formed of planes that extend in an L-shape but face opposite directions to each other. The inner surface 662 is a surface facing the center of the glass panel, and the outer surface 663 is a surface facing the opposite direction to the inner surface 662. The inner surface 662 and the outer surface 663 have a structure in which planes are vertically connected.

The insulating connection member 660 is formed with a groove portion 665 into which a reinforcing rib is inserted, and the groove portion 665 is formed in the center of the inner surface 662 and the outer surface 663 in the width direction, but extends to the outer end. Accordingly, the heat insulation connecting member 660 has approximately H-shaped heat insulation.

An inclined wall 700 is formed on the surface of the insulating connection member 660, and the inclined wall 700 is formed to have a length greater than its height. The inclined wall 700 includes a first inclined wall 710 formed on an inner surface 662 and an outer surface 663, second inclined walls 720 formed on both side surfaces 661, and formed in a stripe shape, and the first inclined wall ( 710) and a third inclined wall 730 connecting the second inclined wall 720 and a fourth inclined wall 740 formed on the side surface 661 but connected in an L-shape.

The first inclined wall 710 is formed on the outer surface 663 and the inner surface 662 and extends from an edge connected to the side to an edge connected to the groove portion 665, and the first inclined walls at the portion where the groove portion 665 is formed ( 710) are separated. The second inclined wall 720 is formed extending from one edge to the other edge of the side surface 661 and continues in a stripe shape. The third inclined wall 730 is formed in a fan shape and is curved to connect the first inclined wall 710 and the second inclined wall 720. The fourth inclined wall 740 is formed of a structure in which two inclined walls are connected at right angles, and is formed at a portion where the first bar 660a and the second bar 660b are connected. The inclined wall 700 is formed to protrude in a direction opposite to the direction fitted to the heat insulating support so that it can be easily fitted with the heat insulating support.

When the first inclined wall 710, the second inclined wall 720, the third inclined wall 730, and the fourth inclined wall 740 are formed as in the third embodiment, connected inclined walls 700 are formed. In addition to supporting the insulating support more stably, the insulating space can be improved by forming a blocking space between the inclined walls 700.

As described above, one embodiment of the present invention has been described, but those skilled in the art can add, change, delete, or add components within the scope of the present invention as described in the claims. It will be said that the present invention can be variously modified and changed by the like, and this is also included within the scope of the present invention.

10: Project window
100: glass panel
150: adhesive member
161: foam adhesion
162: silicone adhesive layer
200: window frame
210: main support
220: blocking plate
230: insulating support
240: second sealing gasket
250: first sealing gasket
260, 460: insulating connection member
261, 461, 661: side
262, 462, 662: inside
263, 463, 663: exterior
265, 465, 665: groove
266, 500, 700: inclined wall
300: window frame
310: side support member
311: side panel
312: back plate
315: rear support
320: rear support member
361: handle
362: clasp
365: jammed jaw
510: straight ramp
520: curved inclined wall
710: first slope wall
720: second slope wall
730: third slope wall
740: fourth slope wall

Claims (9)

In the project window comprising a glass panel having light transmittance, a window frame frame fixed to the building, and a window frame rotatably coupled to the window frame frame,
The window frame,
A main frame made of a tubular shape;
A blocking plate protruding from the main frame and facing the window frame;
It is coupled to the front end of the main frame and has an internal space, a heat insulating support made of synthetic resin material; And
A heat insulating connecting member inserted into the heat insulating support at a portion where the heat insulating supports are connected to support the heat insulating supports, and formed in an L shape;
It includes,
Project window, characterized in that a plurality of inclined walls are formed in contact with the inner surface of the heat insulating support is projected to the heat insulating connection member.
delete According to claim 1,
The inclined wall is formed by connecting in a stripe form a project window, characterized in that to form a plurality of thermal barrier spaces between the heat insulating support.
According to claim 3,
The inclined wall is a project window characterized in that it extends from one edge to the other edge of the insulating connecting member.
According to claim 1,
The insulating connecting member is formed in a L-shaped but includes an inner surface and an outer surface connecting a side surface made of a plane facing each other, and the inclined wall is formed on the inner surface and the outer surface, respectively. Window.
The method of claim 5,
Reinforcing ribs protruding from surfaces facing each other are formed on the inner surface of the heat insulating support in the longitudinal direction of the heat insulating support.
The inclined wall is a project window, characterized in that formed from the edge connected to the side to the edge connected to the groove.
According to claim 1,
The heat insulation connecting member has an L-shape, but includes a side surface made of a plane facing each other and an inner surface and an outer surface connecting the side surfaces, and the inclined wall is formed on the side surface.
The method of claim 7,
The insulating connection member includes a first bar and a second bar bent at a right angle from the first bar,
The inclined wall includes a curved inclined wall connected in an L-shape with a straight inclined wall formed in a stripe form extending from one edge to the other corner, wherein the curved inclined wall is formed in a portion where the first and second bars are connected. Project window characterized in that.
According to claim 1,
The heat insulation connecting member includes a first bar and a second bar bent at a right angle from the first bar, and extends in an L-shape, but includes an inner surface and an outer surface connecting the side surfaces made of planes facing opposite directions to each other. And
The inclined wall is a first inclined wall formed on the inner surface and the outer surface, a second inclined wall formed on a side surface and formed in a stripe shape, and connected to the first inclined wall and the second inclined wall, but formed in a fan shape to be curved. Project window, characterized in that it comprises a third inclined wall, a fourth inclined wall formed on the side and connected in an L-shape.

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