KR101575670B1

KR101575670B1 - Inner window to maximize insulation effect and installing method thereof

Info

Publication number: KR101575670B1
Application number: KR1020150076364A
Authority: KR
Inventors: 남형석
Original assignee: 주식회사 알프
Priority date: 2015-05-29
Filing date: 2015-05-29
Publication date: 2015-12-08

Abstract

The present invention relates to an inner window to maximize an insulation effect and an installing method thereof. The present invention installs a sealing pad in an existing curtain wall or an inner window frame of a horizontally sliding window and sets up a frame of the inner window in the sealing pad to maximize insulation, sealing, soundproof and lightproof effects of a room. The inner window can be assembled or disassembled in an orderly manner. Therefore, even unskilled workers can attach and detach the inner window easily to and from the window frame.

Description

{INNER WINDOW TO MAXIMIZE INSULATION EFFECT AND INSTALLING METHOD THEREOF}

More particularly, the present invention relates to an air conditioner having an airtight pad provided on the inner surface of a window or window of a conventional curtain wall or a mirror window, It is possible to maximize the effects of heat insulation, airtightness and soundproofing of the interior of the room, and it is possible to maximize the effect of heat insulation, which can easily detach and insert the door in the window frame even if the door is sequentially assembled or separated, And a method of installing the door.

In general, a wall of a building is provided with a curtain wall made of a metal material or a wood material, or a window such as a mirror, so that the interior of the building can be illuminated or ventilated.

In recent years, residential and commercial buildings have become more sophisticated, and thus curtain walls and door openings have been improved in various ways such as airtightness, insulation, and soundproofing.

However, in the case of old buildings or light-weight buildings, there are many gaps in the windows and a single layer, which is a problem that insulation, airtightness and soundproofing are poor.

As a simple method for solving the above problems, there is used a method of attaching vinyl on the outside or inside of the window frame for heat insulation. However, when attaching the vinyl to the window frame, a velcro tape, a double- However, this method is very troublesome when the season is changed or is unnecessary, and the tape or nail mark is left on the window frame or the wall, and the aesthetic appearance is damaged. And the like.

In order to solve this problem, there has been proposed a method of replacing the double window with a double window. However, this method has a problem that the working time and the installation cost are excessively required and the economical efficiency is deteriorated. Also, when the wall structure is thin, It is a reality that there are various restrictions on the replacement method.

In order to solve the problem that the user does not obtain the desired heat insulation effect, the blinds having the function of blocking sunlight are installed between the windows and the windows of the double-blind windows. When the room temperature is high, the blinds When the room temperature is low, the blinds can be removed to raise the room temperature. Alternatively, different colors of oily and aqueous liquids can be injected or discharged as needed between windows and windows of the double glazing system, In addition, a heat loss plate is installed on a window to prevent the heat loss of the room from being increased due to the occurrence of frost or steam in the window due to the temperature difference between the room and the window in winter.

In another method, the frame of the double window is heat treated to improve the heat insulating effect, or the interval between the window and the window of the double window is enlarged or the thermal conductivity is reduced by using a triple window. However, There is a problem that installation cost and installation cost are increased due to a large number of triple-sheathed type or installation cost.

In order to solve the above-mentioned problems, a method of improving the heat insulation by installing a curtain wall or a window in a window frame of a shutter window has been used.

However, the above-mentioned conventional window has a problem that it is practically impossible to install a window in a window frame in the field unless its structure is an expert.

Korean Registered Patent No. 0707388 (Registered on Apr. 06, 2007) Korean Registered Patent No. 1217288 (registered on December 24, 2012) Korea registered patent No. 1352686 (registered on Apr. 10, 2014) Korean Patent Laid-Open No. 2014-128127 (Published on April 05, 2014)

In order to solve the above-described problems, the present invention provides an air-tight padding on the inner side of a window frame of a conventional curtain wall or a missile window, and a frame of a window on the inner surface of the air- And the like can be maximized.

It is another object of the present invention to provide a door and a method of installing the door, wherein the vertical frame and the horizontal frame of the door are sequentially assembled and separated so that the door can be easily attached to or detached from the window frame even if the operator is not an experienced operator.

Further, it is an object of the present invention to provide a window that can prevent the openings from being exposed to the outside, thereby preventing the aesthetics from being hindered, by providing the vertical frame and the horizontal frame of the window in the same or smaller size than the frame of the window frame .

In addition, the present invention has an air cleaner installed on the upper part of the air conditioner to purify the air flowing into the room from outside the room, thereby maintaining a pleasant environment of the room.

It is another object of the present invention to provide a door which can improve aesthetics of a room by combining vertical and horizontal finishing frames on the inner side of the indoor side of the vertical frame and the horizontal frame of the infant.

According to the present invention, a rail protrusion is provided on a horizontal frame of a door, and a roller below the door glass is installed on the door frame. A gasket is provided between the upper and lower portions of the door glass to open and close the door glass in a sliding manner And to provide a door that can improve airtightness and heat insulation by blocking the flow of outside air.

In order to achieve the above object, according to the present invention, there is provided a pad body (210) having an outdoor side outer surface fixed to the inner side of an inner side of a window frame (100) along an inner side of an inner side of a window frame A pad engaging groove 220 is formed at one end of the pad body 210 and a pad engaging protrusion 231 protrudes inwardly from both sides of the inner side of the other side of the pad body 210 having the pad engaging groove 220 An airtight pad 200 having a pad coupling groove 230;

A vertical frame 300 vertically disposed on the inner surface of the airtight pad 200 at both sides of the window frame 100 and at a central position;

A first horizontal frame 400 disposed horizontally on the inner surface of the airtight pad 200 at the upper and lower ends of the window frame 100;

A plurality of second horizontal frames 500 horizontally disposed between the first horizontal frames 400 at the upper and lower ends of the window frame 100;

And an opening glass 700 having a roller 750 at a lower end between the first horizontal frame 400 and the second horizontal frame 500.

The vertical frame 300 includes a first vertical frame 310 provided on one side of the inner side of the room-facing side of the airtight pad 200;

A second vertical frame 320 provided on the other side of the inner side of the indoor side of the airtight pad 200 having the first vertical frame 310;

And a vertical finishing frame 330 provided on the inner side of the first vertical frame 310 and the second vertical frame 320.

In addition, the first horizontal frame 400 has a first horizontal frame body 410 through which the center passes horizontally and has one end coupled to the inner side of the airtight pad 200;

A protruding frame 411 protruding toward the inside of the room on the inner side of the first horizontal frame body 410;

The first horizontal frame body 410 is coupled to the inner side of the airtight pad 200 and is supported at one end of the airtight pad 200 in the direction of the airtight pad 200, A horizontal frame support bar 420 provided with a horizontal frame insertion protrusion 421 protruding in a direction of the horizontal frame support bar 420;

A pair of first horizontal frames 430 protruding in the direction of the airtight pad 200 from the first horizontal frame body 410 on the other side of the horizontal frame support bar 420 and having horizontally frame engaging protrusions 431 at the end thereof, A coupling member 430;

A pair of first horizontal frame rail protrusions 440 spaced at a predetermined interval from the protruding frame 411;

And a first horizontal frame coupling groove 450 having a first horizontal frame coupling protrusion 451 protruding inward from both sides of the upper portion between the pair of first horizontal frame rail projections 440 .

The second horizontal frame 500 includes a second horizontal frame body 510 extending vertically and provided with a plurality of first gasket insertion grooves 511 in the direction of the glass pane 700 at upper and lower portions thereof;

A second horizontal frame protrusion (520) protruding from the second horizontal frame body (510) toward the room side;

A second horizontal frame engaging groove 530 bent downward at the center of the second horizontal frame protruding plate 520 and having a second horizontal frame fastening protrusion 531 protruding inward from the inner side of both upper sides;

A pair of second horizontal frame rail protrusions 540 protruding upward from both sides of the second horizontal frame locking groove 530;

A second horizontal frame protrusion 550 protruding downward from a lower portion of the second horizontal frame locking groove 530;

And a plurality of second gasket insertion grooves 560 provided on both sides of the second horizontal frame protrusion 550 in the direction of the opening glass.

The first horizontal frame 400 and the second horizontal frame 500 are disposed between the first horizontal frame 400 and the second horizontal frame 500, And an air purifying plate (600).

The first vertical frame 310 has a first vertical frame body 311 vertically penetrating through the center and coupled to one side of the inner side of the airtight pad 200;

A first vertical extension plate 312 protruding from one side of the inner side of the inner side of the first vertical frame body 311 toward the interior of the first vertical frame body 311 and bent at an end thereof in the center direction of the airtight pad 200;

And a first vertical protrusion 313 extending from the first vertical extension plate 312 so as to be bent in the direction of the airtight pad 200 and provided on an outer surface of the second vertical protrusion 312, A second vertical frame body 321 coupled to the other side of the inner surface of the airtight pad 200 on the inner side of the airtight pad 200 so as to correspond to the first vertical frame 310;

A second vertical extension plate 322 which protrudes from one side of the inner surface of the second vertical frame body 321 in the direction of the interior of the room and has an end bent by bending in the center direction of the airtight pad 200;

And a second vertical protrusion 323 extending from the second vertical extension plate 322 to extend in the direction of the airtight pad 200 and provided on the outer side of the airtight pad 200. The vertical finishing frame 330 includes first, A vertical closing frame body (331) which is in close contact with the inner side inner surface of the vertical frames (310, 320);

A vertical finishing frame gasket insertion groove 332 provided on both sides of the vertical finishing frame body 331 in the direction of the filler glass 700;

A pair of vertical finishing frame protrusions 333 protruding in the direction of the airtight pad from the center of the vertical finishing frame body 331 to a predetermined distance in the right and left direction;

A vertical finishing frame locking protrusion 334 protruding outward at an end of the vertical finishing frame protrusion 333;

And a pair of vertical finishing frame support protrusions 335 protruding from the vertical finishing frame body 331 in the direction of the first and second vertical frames 310 and 320 on the outside of the vertical finishing frame projection 333. [ .

The first horizontal frame 400 includes a first horizontal finishing frame locking protrusion 460 protruding from the inner end of the protruding frame 411 toward the first horizontal frame rail protrusion 440;

A first horizontal frame support protrusion 470 protruding from the first horizontal frame rail protrusion 440 of the protruding frame 411 in a lateral direction of the room;

A first horizontal frame locking protrusion 480 protruded in the direction of the second horizontal frame 500 between the first horizontal frame rail protrusion 440 and the first horizontal frame support protrusion 470;

And a first horizontal finishing frame (490) coupled to the first horizontal finishing frame locking protrusion (460) and the first horizontal frame locking protrusion (480), the second horizontal frame (500) A second horizontal frame locking plate 570 extending downward from the publication 520 and having an end extending in the direction of the second horizontal frame locking groove 530 and having a horizontal locking protrusion 571 protruding downward, and;

A second horizontal frame locking protrusion 580 protruded upward between the second horizontal frame rail protrusion 540 and the second horizontal frame locking plate 570;

And a second horizontal closing frame 590 coupled to the second horizontal frame locking plate 570 and the second horizontal frame locking protrusion 580.

The first vertical frame 310 includes a first vertical support bar 314 protruding outwardly on one side of the first vertical frame body 311 and supported on one side of the airtight pad 200;

And a vertical hooking bar 314 protruding in the direction of the airtight pad 200 and provided with a first vertical hooking protrusion 315a on the other side of the first vertical frame body 311 provided with the first vertical support bar 314, (315);

And a first vertical bending bar 316 extending outwardly from the other side of the first vertical frame body 311 provided with the first vertical support bar 314 and having an end bent in the direction of the interior of the room The second vertical frame 320 is supported on one side of the airtight pad 200 and protruded toward the airtight pad 200 in the direction of the outdoor side on one side of the second vertical frame body 321, A second vertical support bar 324 provided with two vertical insertion protrusions 324a;

A second vertical bending bar 325 extending outward from the other side of the second vertical frame body 321 provided with the second vertical support bar 324 and having an end bent in the direction of the airtight pad 200, And a control unit.

The first horizontal finishing frame 490 includes a first horizontal finishing frame body 491 adapted to be in close contact with the first horizontal frame supporting protrusion 470 and the first horizontal finishing frame locking protrusion 480;

A plurality of first horizontal finishing frame gasket insertion grooves 492 provided at one end of the first horizontal finishing frame body 491 in the direction of the filler glass 700;

The first horizontal finishing frame body 491 having the first horizontal finishing frame gasket insertion groove 492 protrudes in the direction of the protruding frame 411 and is coupled to the first horizontal finishing frame locking protrusion 460 A first horizontal finishing frame engaging projection 493;

The first horizontal finishing frame coupling protrusion 493 protrudes in the direction of the protruding frame 411 from the first horizontal finishing frame body 491 between the first horizontal finishing frame gasket insertion groove 492 and the first horizontal finishing frame coupling protrusion 493, 470 and a first horizontal frame locking protrusion 480 and the second horizontal finishing frame 590 is inserted into the second horizontal frame locking plate 570 A second horizontal finishing frame body 591 provided so as to be in close contact with the first horizontal finishing frame body 591;

A plurality of second horizontal finishing frame gasket insertion grooves 592 provided in the upper and lower portions of the second horizontal finishing frame body 591 in the direction of the filler glass 700;

A second horizontal frame locking groove 530 protruding in the direction of the second horizontal frame locking groove 530 above the first horizontal closing frame gasket insertion groove 592 provided below the second horizontal closing frame body 591, A second horizontal finishing frame engaging projection 593 engaged with the horizontal engaging jaw 571 of the first horizontal finishing frame engaging projection 593;

And a second horizontal finishing frame locking protrusion 594 protruding in the direction of the second horizontal frame locking groove 530 and coupled to the second horizontal frame locking protrusion 580 above the second horizontal finishing frame coupling protrusion 593 .

In the present invention, a fastening gasket insertion groove 810 for inserting a gasket in the direction of both the side glass panes 700 is provided at one end and inserted into the first and second horizontal frame fastening grooves 450 and 530 at the other end And a fastener (800) provided with a pair of fastening protrusions (820).

In the meantime, the method of installing a boot according to the present invention maximizes the heat insulation effect, comprising the steps of: installing an airtight pad (200) along an inner surface of an interior side of a window frame (100);

Constructing a vertical frame (300) in a direction perpendicular to the inner surface of the airtight pad (200) at both side ends of the window frame (100) and at a central position;

Installing a first horizontal frame (400) in the horizontal direction on the inner surface of the airtight pad (200) at the upper and lower ends of the window frame (100);

Installing a plurality of second horizontal frames (500) in a horizontal direction between a first horizontal frame (400) at an upper end portion and a lower end portion of the window frame (100);

Installing an air purifying plate (600) for purifying air between a first horizontal frame (400) and a second horizontal frame (500) at an upper end position of the window frame (100);

A primary window glass 100 provided with a roller 750 at a lower end between a first horizontal frame 400 and a second horizontal frame 500 under the window frame 100 and between a second horizontal frame and an upper second horizontal frame, (700);

The first horizontal frame fastening groove 450 of the first horizontal frame 400 at the lower end of the window frame 100 and the second horizontal frame fastening groove 530 of the second horizontal frame 500 at the center of the window frame 100, (800);

A secondary window glass having a roller 750 at a lower end between the second horizontal frame and the upper second horizontal frame between the first horizontal frame 400 and the second horizontal frame 500 under the window frame 100, (700);

And a step of installing a vertical finishing frame 330 and first and second horizontal finishing frames 490 and 590 on the inner side of the inside of the vertical frame 300 and the first and second horizontal frames 400 and 500 .

The door of the present invention as described above has an airtight pad provided on the inner surface of the window frame of the curtain wall or the mirror window of the existing window and a frame of the window provided on the inner surface of the airtight pad to provide the effect of heat insulation and airtightness, Can be maximized.

In addition, the present invention has the effect that the vertical frame and the horizontal frame of the door are sequentially assembled and separated so that the door can be easily attached and detached to the window frame even if the operator is not an experienced operator.

Further, according to the present invention, since the vertical frame and the horizontal frame of the infant can be the same or smaller than the frame of the window frame, the infant can be prevented from being exposed to the outside, thereby preventing the aesthetic appearance from being hindered.

In addition, the present invention provides an air purifying plate on the upper part of the door to clean the air flowing into the room from the outside, thereby maintaining the pleasant environment of the room.

In addition, the present invention has the effect of improving the aesthetics of the interior by combining vertical and horizontal finishing frames on the inner side of the indoor side of the vertical frame of the door and the horizontal frame.

According to the present invention, a rail protrusion is provided on a horizontal frame of a door, and a roller below the door glass is installed on the door frame. A gasket is provided between the upper and lower portions of the door glass to open and close the door glass in a sliding manner And the flow of outside air is blocked, thereby improving airtightness and heat insulation.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary view showing an indoor side of a door in which a heat insulating effect according to the present invention is maximized; FIG.
FIG. 2 is a perspective view showing a side sectional structure of a door of a door in which the heat insulating effect according to the present invention is maximized; FIG.
Fig. 3 is an exemplary view showing a flat cross-section of a door in which the heat insulating effect according to the present invention is maximized; Fig.
Fig. 4 is an exemplary view showing a side cross-section of a window in which the heat insulating effect according to the present invention is maximized; Fig.
FIG. 5 is an exemplary view showing a state in which an airtight pad of a door in which a heat insulation effect is maximized according to the present invention is installed on the inner side of a room side of a window frame. FIG.
6 is a view showing a state in which a horizontal frame of a door is installed, which maximizes a heat insulation effect according to the present invention.
FIG. 7 is an exemplary view showing a state in which a primary glass of a window is installed, which maximizes the heat insulation effect according to the present invention; FIG.
FIG. 8 is an exemplary view showing a state where a primary glass of a window is installed, which maximizes the heat insulation effect according to the present invention. FIG.
9 is a view showing a state in which a horizontally finishing frame of a door is installed, which maximizes a heat insulation effect according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the drawings, reference numerals 710, 720, and 720 denote a glass window frame, a handle, a glass gasket insertion groove 730, a gasket 740, a roller 750, a bolt 900, and a blind 910.

2 to 4, the air-conditioner pad 200 is provided along the inner surface of the conventional window frame 100. As shown in FIGS.

The airtight pad 200 is provided with a pad body 210 whose outer surface is fixed to the inner surface of the window frame 100 and a pad engaging groove 220 is formed at one end of the pad body 210 And a pad engaging groove 230 having a pad engaging protrusion 231 protruding inward from both sides of the inner side of the other side of the pad body 210 having the pad engaging groove 220.

The airtight pad 200 may be formed to have a smaller size than the window frame 100. The airtight pad 200 may include a window frame 100, a vertical frame 300, a first and second horizontal frames 400 and 400, 500 are preferably made of a material such as rubber, silicone, PVC foam or the like so that the airtightness is maintained while the airtightness is maintained.

The vertical frame 300 is vertically disposed on the inner surface of the airtight pad 200 at both sides of the window frame 100 and the airtight pad 200 at the upper end and the lower end of the window frame 100 And a plurality of second horizontal frames 500 are provided horizontally between the upper and lower ends of the window frames 100. The first horizontal frames 400 are horizontally disposed on the inner surface of the window frame 100, .

The first horizontal frame 400 provided at the upper end of the inner side of the inner side of the window frame 100 and the second horizontal frame 500 provided below the first horizontal frame 400 are introduced into the room from outdoors An air purifying plate 600 for purifying the air is provided and an opening glass 700 having a roller 750 at a lower end is provided between the first horizontal frame 400 and the second horizontal frame 500.

At this time, both ends of the first and second horizontal frames 400 and 500 are preferably coupled to the vertical frame 300 provided on both sides as shown in FIG.

The window glass 700 is provided with a window glass frame 710 at one end of which the window glass is inserted and a handle 720 projecting toward the inside of the window glass frame 710 at the center of the inner side of the inside of the window glass frame 710, It is preferable that a filler glass gasket insertion groove 730 is provided on the outdoor side of the filler glass frame 710 and a gasket 740 is provided on the filler glass gasket insert groove 730.

3, the vertical frame 300 is provided with a first vertical frame 310 on one side of the inner side of the indoor side of the airtight pad 200 and an airtight pad (not shown) having the first vertical frame 310 And a vertical finishing frame 330 is provided on an inner surface of the first vertical frame 310 and the second vertical frame 320 on the inner side of the room.

The first vertical frame 310 has a first vertical frame body 311 vertically penetrating through the airtight pad 200 and coupled to one side of the inner side of the airtight pad 200. The first vertical frame body 311 The first vertical extension plate 312 protrudes from one side of the inner side of the inner side of the room and extends in the central direction of the airtight pad 200. The first vertical extension plate 312 And the first vertical locking protrusion 313 is provided on the outer side of the first vertical locking protrusion 313 so as to be bent in the direction of the airtight pad 200.

A first vertical support bar 314 protruding outdoors in the lateral direction of the first vertical frame body 311 and supported on one side of the airtight pad 200 is provided and a first vertical support bar 314 is provided And a vertical frame locking bar 315 protruding in the direction of the airtight pad 200 and having a first vertical locking protrusion 315a on the outer side of the first vertical frame body 311 is provided at the other side of the first vertical frame body 311.

In addition, a first vertical bending bar 316 which extends outwardly and which is bent in the lateral direction of the room is provided on the other side of the first vertical frame body 311 provided with the first vertical support bar 314 .

The second vertical frame 320 has a second vertical frame body 321 vertically penetrating through the center of the second vertical frame 320 and coupled to the first vertical frame 310 on the other side of the inner side of the airtight pad 200 A second vertical extension plate 322 protruding from the first inner side of the inner side of the second vertical frame body 321 in the direction of the room and having an end portion bent in the center direction of the airtight pad 200, A second vertical protrusion 323 is provided on the outer surface of the second vertical protrusion 322 so as to be bent in the direction of the airtight pad 200. [

The first vertical protrusion 324a protrudes outwardly from the first vertical frame body 321 and is supported on one side surface of the airtight pad 200 and the second vertical protrusion 324a protrudes toward the airtight pad 200 on the inner surface thereof. 2 vertical support bar 324 and is extended outwardly from the other side of the second vertical frame body 321 provided with the second vertical support bar 324 and is bent in the direction of the airtight pad 200 A second vertical bending bar 325 is provided.

In this case, the first and second vertical frame bodies 311 and 321 are provided with the first and second vertical extension plates 312 and 322 on one side thereof and the gaskets (not shown in the figure) The first and second vertical extension plates 312 and 322 are formed to be symmetrical with respect to each other so as to be symmetrical with respect to the first vertical frame body gasket insertion groove (not shown in the drawing) It is preferable that the second vertical frame extension plate gasket insertion groove (not shown in the figure) is provided in the direction of the filler glass 700.

The vertical finishing frame 330 is provided with a vertical finishing frame body 331 which is in close contact with the inner surfaces of the first and second vertical extension plates 312 and 322 of the first and second vertical frames 310 and 320, A vertical finishing frame gasket insertion groove 332 is formed at both sides of the vertical finishing frame body 331 in the direction of the filler glass 700. The vertical finishing frame body 331 is spaced apart from the center of the vertical finishing frame body 331 by a certain distance, A pair of vertical finishing frame protrusions 333 protruding in the direction of FIG.

And a vertical finishing frame locking protrusion 334 protruding outward at an end of the vertical finishing frame protrusion 333. The vertical finishing frame protrusion 333 has a vertical finishing frame protrusion 333, And a pair of vertical finishing frame support protrusions 335 protruding in the direction of the two vertical frames 310 and 320.

4, the first horizontal frame 400 includes a first horizontal frame body 410 through which the center passes horizontally and is coupled to an inner surface of the airtight pad 200 on the inner side, A protruding frame 411 protrudes from the inner side of the first horizontal frame body 410 on the inner side of the room.

One end of the first horizontal frame body 410 coupled to the inner side of the airtight pad 200 is supported by the airtight pad 200 in the direction of the airtight pad 200 and the end is supported by the second horizontal frame The horizontal frame support bar 420 is provided with a horizontal frame insertion protrusion 421 which is bent and protruded in the direction of the horizontal frame support protrusion 421.

The first horizontal frame body 410 having the horizontal frame support bar 420 at one side is provided with a pair of protrusions 431 protruding in the direction of the airtight pad 200 and having horizontal frame engaging protrusions 431 at the end thereof, A first horizontal frame coupling hole 430 is provided.

At this time, the horizontal frame support bar 420 and the first horizontal frame connector 430 may be integrally formed with the first horizontal frame body 410.

The projecting frame 411 is provided with a pair of first horizontal frame rail projections 440 spaced apart from each other by a predetermined distance, and between the centers of the pair of first horizontal frame rail projections 440, And a first horizontal frame engaging groove 450 protruding inward from both ends of the first horizontal frame engaging protrusion 451.

The first horizontal frame 400 is provided with a first horizontal finishing frame locking protrusion 460 protruding from the inner end of the protrusion frame 411 toward the first horizontal frame rail protrusion 440, The first horizontal frame rail protrusion 440 and the first horizontal frame support protrusion 440 protrude from the first horizontal frame rail protrusion 440 of the frame 411 in the interior direction. The first horizontal frame locking protrusion 480 protrudes in the second horizontal frame 500 direction.

The first horizontal finishing frame 490 coupled to the first horizontal finishing frame engaging protrusion 460 and the first horizontal frame engaging protrusion 480 includes a first horizontal frame supporting protrusion 470 and a first horizontal finishing frame locking protrusion 470. [ The first horizontal finishing frame body 491 is provided at one end of the first horizontal finishing frame body 491 and is provided with a plurality of first horizontal finishing frame gasket insertion grooves 411 in the direction of the glass pane 700, (492).

The other end of the first horizontal finishing frame body 491 provided with the first horizontal finishing frame gasket insertion groove 492 protrudes in the direction of the protruding frame 411 and is coupled to the first horizontal finishing frame locking protrusion 460 A first horizontal finishing frame engaging projection 493 is provided and between the first horizontal finishing frame gasket insertion groove 492 and the first horizontal finishing frame engaging projection 493, And a first horizontal finishing frame insertion protrusion 494 protruding in the direction of the first horizontal frame locking protrusion 411 and inserted and coupled between the first horizontal frame supporting protrusion 470 and the first horizontal frame locking protrusion 480.

The second horizontal frame 500 includes a second horizontal frame body 510 extending vertically and having a plurality of first gasket insertion grooves 511 at the upper and lower sides in the direction of the glass pane 700, The second horizontal frame protrusion (520) protrudes from the second horizontal frame body (510) to the inside of the second horizontal frame protrusion (520). The second horizontal frame protrusion (520) And a second horizontal frame engaging groove 530 protruding from the second horizontal frame engaging protrusion 531.

And a pair of second horizontal frame rail protrusions 540 protruding upward from both sides of the second horizontal frame fastening groove 530. A lower portion of the second horizontal frame fastening groove 530 is provided with a second And a plurality of second gasket insertion grooves 560 are provided on both sides of the second horizontal frame protrusion 550 in the direction of the glazing 700.

Although the first and second horizontal frame rail projections 440 and 540 have been described by way of example in the present invention, rail protrusions having a circular cross-sectional shape have been described as an example, but the protrusions may be formed in a polygonal shape such as a triangular, .

The second horizontal frame 500 extends downward from the second horizontal frame protrusion 520 and has an end extending in the direction of the second horizontal frame locking groove 530, A second horizontal frame latching plate 570 provided with a jaw 571 and a second horizontal frame latching plate 570 provided between the second horizontal frame rail protrusion 540 and the second horizontal frame latching plate 570, A locking protrusion 580 is provided.

And a second horizontal finishing frame 590 coupled to the second horizontal frame engaging plate 570 and the second horizontal frame engaging projection 580 includes a second horizontal finishing frame body 570 which is in close contact with the second horizontal frame engaging plate 570, And a plurality of second horizontal finishing frame gasket insertion grooves 592 are provided in the upper and lower portions of the second horizontal finishing frame body 591 in the direction of the glass pane 700.

The upper portion of the first horizontal finishing frame gasket insertion groove 592 provided at a lower position of the second horizontal finishing frame body 591 is projected in the direction of the second horizontal frame engaging groove 530, And a second horizontal finishing frame engaging projection 593 coupled to the horizontal engaging jaw 571 of the second horizontal finishing frame engaging projection 593 and projecting in the direction of the second horizontal frame engaging groove 530 And a second horizontal finishing frame locking projection 594 coupled to the second horizontal frame locking projection 580 is provided.

Meanwhile, at one end of a fastener 800 to be fastened to the first and second horizontal frames 400 and 500, there is provided a fastener gasket insertion groove 810 through which a gasket is inserted in the direction of the two side glass panes 700, A pair of fastening protrusions 820 inserted into the first and second horizontal frame fastening grooves 450 and 530 are provided.

Hereinafter, a method for installing a window for maximizing the adiabatic effect according to the present invention on an existing window frame will be described.

First, installing the airtight pad 200 along the inner side of the room side of the window frame 100; Constructing a vertical frame (300) in a direction perpendicular to the inner surface of the airtight pad (200) at both side ends of the window frame (100) and at a central position; Installing a first horizontal frame (400) in the horizontal direction on the inner surface of the airtight pad (200) at the upper and lower ends of the window frame (100); Installing a plurality of second horizontal frames (500) in a horizontal direction between a first horizontal frame (400) at an upper end portion and a lower end portion of the window frame (100); Installing an air purifying plate (600) for purifying air between a first horizontal frame (400) and a second horizontal frame (500) at an upper end position of the window frame (100); A primary window glass 100 provided with a roller 750 at a lower end between a first horizontal frame 400 and a second horizontal frame 500 under the window frame 100 and between a second horizontal frame and an upper second horizontal frame, (700); The first horizontal frame fastening groove 450 of the first horizontal frame 400 at the lower end of the window frame 100 and the second horizontal frame fastening groove 530 of the second horizontal frame 500 at the center of the window frame 100, (800); A secondary window glass having a roller 750 at a lower end between the second horizontal frame and the upper second horizontal frame between the first horizontal frame 400 and the second horizontal frame 500 under the window frame 100, (700); A vertical finishing frame 330 and first and second horizontal finishing frames 490 and 590 are installed on the inner side of the interior of the vertical frame 300 and the first and second horizontal frames 400 and 500.

That is, the step of installing the airtight pad 200 along the inner side of the inner side of the window frame 100 may include a step of attaching the pad body 210 to both side ends of the window frame 100 and the inner side of the center room along the window frame 100, .

At this time, the pad body 210 may be fixed to the inner side window panel 100 by a bolt 900, and the adhesive may be applied between the window frame 100 and the pad body 210.

The airtight pad 200 installed horizontally in the upper part of the window frame 100 is installed such that the pad catching groove 220 provided at one end of the pad body 210 opens upward, The airtight pad 200 installed horizontally in the lower portion is provided such that the pad engaging groove 220 provided at one end of the pad body 210 is opened to the lower side and the airtight pad 200 is provided on the window frame 100 in the vertical direction The airtight pad 200 provided with the pad engaging groove 220 has a pad engaging groove 230 having a pad engaging protrusion 231 protruding inward from both sides of the inner side of the other side of the pad body 210 provided with the pad engaging groove 220 So as to be opened in the indoor side direction.

The step of constructing the vertical frame 300 in the vertical direction on both inner sides of the window frame 100 and the inner surface of the airtight pad 200 in the central position after the completion of the installation of the airtight pads 200 on the window frame 100 3, the first vertical frame body 311 of the first vertical frame 310 is closely contacted to one side of the inner side of the indoor side of the airtight pad 200, The first vertical support bar 314 protruded from the first vertical support bar 314 is supported on one side of the airtight pad 200 and the airtight pad 200 is provided on the other side of the first vertical frame body 311 provided with the first vertical support bar 314. [ To the pad engaging groove 230, as shown in Fig.

At this time, a first vertical latching protrusion 315a provided outside the end of the vertical frame latching bar 315 is coupled to the pad latching protrusion 231 protruding to the inside of the pad insertion groove 230.

The bolt 900 is inserted into the first vertical frame body 311 provided with the first vertical support bar 314 while the first vertical frame body 311 on the one side of the pad body 210 is installed. And a first vertical bending bar 316 which is bent at an end in the lateral direction and a pad body 210 through the airtight pad 200 and the first vertical frame 310, 100).

The second vertical frame 320 protrudes outwardly from the second vertical frame body 321 on the other side of the pad body 210 on which the first vertical frame 310 is installed, The second vertical support bar 324 is mounted on one side of the airtight pad 200 by inserting the second vertical insertion protrusions 324a protruded into the pad engagement grooves 220. [

In this manner, first and second vertical frames 310 and 320 are installed at both ends and the center of the window frame 100, respectively.

6, the step of installing the first horizontal frame 400 in the horizontal direction on the inner surface of the airtight pad 200 at the upper end and the lower end of the window frame 100 may be performed by the first horizontal frame 400, And the end of the horizontal frame supporting bar 420 protruding in the direction of the airtight pad 200 and supported on the airtight pad 200 at one end of the first horizontal frame body 410 of the first horizontal frame body 410, The horizontal frame insertion protrusion 421 is inserted into the pad locking groove 220 of the airtight pad 200 and then the first horizontal frame body 410 is rotated with respect to the horizontal frame insertion protrusion 421, The coupling hole 430 is inserted into the pad coupling groove 230 so that the horizontal frame coupling protrusion 431 is coupled to the pad locking projection 231.

The first horizontal frame 400 is installed at the upper and lower ends of the window frame 100 so as to be symmetrical with respect to each other.

The step of installing a plurality of second horizontal frames 500 in a horizontal direction between the upper and lower ends of the window frame 100 may include the steps of providing a first horizontal frame 400 And the side ends of the second horizontal frame body 510 are fixed to the vertical frame 300 installed at both ends of the window frame 100.

At this time, a blind 910 may be installed between the window frame 100 and the second horizontal frame 500.

After the first and second horizontal frames 400 and 500 are installed as described above, an air cleaner plate (not shown) for purifying air between the first horizontal frame 400 and the second horizontal frame 500 at the upper end position of the window frame 100 The air purifying plate 600 may be disposed between the protruding frame 411 of the first horizontal frame and the second horizontal frame protrusion 520 of the second horizontal frame 500 as shown in FIG. Insert it.

The upper and lower outer surfaces of the air purifying plate 600 are connected to gaskets (not shown) inserted into the first horizontal frame body gasket insertion grooves (not shown) provided at one side of the first horizontal frame body 410 And a gasket (not shown) coupled to the first gasket insertion groove 511 of the second horizontal frame.

A primary window (100) is provided with a roller (750) at a lower end between a first horizontal frame (400) and a second horizontal frame (500) and between a second horizontal frame The step of installing the glass 700 may be performed by first attaching the upper end of the filler glass 700 to the first gasket insertion groove 511 provided in the lower part of the second horizontal frame body 510 of the second horizontal frame 500 and the second horizontal And the second gasket insertion groove 560 provided below the frame protrusion 550. The lower portion of the opening glass 700 provided with the roller 750 is inserted into the first horizontal frame 400 provided below the window frame 100, So that the roller 750 is installed on the first horizontal frame rail protrusion 440. In this case,

The glass pane 700 is installed between the second horizontal frame 500 and the lower portion of the other second horizontal frame 500 installed under the air purifying plate 600 as described above.

The first horizontal frame fastening groove 450 of the first horizontal frame 400 at the lower end of the window frame 100 is fastened to the second horizontal frame fastening groove 530 of the second horizontal frame 500 at the center of the window frame 100, The step of installing the sphere 800 may include the step of attaching the fastening protrusion 800 of the fastener 800 to the first horizontal frame fastening groove 450 of the first horizontal frame 400 provided at the lower part of the window frame 100, 820 are inserted and the fastening protrusion 820 is fastened to the first horizontal frame fastening protrusion 451 protruding inwardly from the upper portion of the first horizontal frame fastening groove 450.

The fastener 800 is inserted into the second horizontal frame engaging groove 530 of the second horizontal frame 500 provided in the middle of the inner side of the inside of the window frame 100 so that the fastener protrusion 820 is inserted into the second And fastened to the horizontal frame fastening protrusion 531.

A roller 750 is disposed between the first horizontal frame 400 and the second horizontal frame 500 under the window frame 100 and between the second horizontal frame 500 and the second horizontal frame 500 at the lower end. The glass pane 700 is installed by being transferred to the indoor side of the fastener 800 in a similar manner to the method of installing the primary glass pane 700. [

The steps of installing the vertical finishing frame 330 and the first and second horizontal finishing frames 490 and 590 on the inner side of the vertical frame 300 and the first and second horizontal frames 400 and 500 The vertical finishing frame protrusion 333 of the vertical finishing frame 330 is inserted between the first and second vertical locking projections 313 and 323 as shown in FIG. 2 vertical hooks 313 and 323, respectively.

At this time, the inner end portions of the first and second vertical extension plates 312 and 322 are inserted and supported inside the vertical finishing frame support protrusion 335.

9, the first horizontal finishing frame 490 includes a first horizontal finishing frame body 491 having a first horizontal finishing frame gasket insertion groove 492, The first horizontal finishing frame engaging projection 493 protruded to the first horizontal finishing frame engaging projection 460 is engaged with the first horizontal finishing frame gasket insertion recess 492 and the first horizontal finishing frame engaging projection 493, The first horizontal finishing frame insertion protrusion 494 protruding from the first horizontal finishing frame body 491 in the direction of the protruding frame 411 is inserted between the first horizontal frame support protrusion 470 and the first horizontal frame locking protrusion 480, Respectively.

Further, a second horizontal finishing frame engaging projection 530 protruding in the direction of the second horizontal frame engaging groove 530 is formed on the first horizontal finishing frame gasket insertion groove 592 provided at a lower position of the second horizontal finishing frame body 591, (593) is coupled to the horizontal latching jaws (571) of the second horizontal frame latching plate (570), and the second horizontal finishing frame coupling protrusion (593) is projected in the direction of the second horizontal frame locking groove When the two horizontal finishing frame locking projections 594 are engaged with the second horizontal frame locking projections 580, the installation of the vertical finishing frame 330 and the first and second horizontal finishing frames 490 and 590 is completed.

The air-conditioner pad 200 is installed on the inner surface of the window 100 of the curtain wall or the window glass of the conventional window, and the vertical frame 300 of the air- It is possible to maximize the effects of heat insulation, airtightness, soundproofing, and light shielding in a room by installing the first and second horizontal frames 400 and 500 So that the door can be easily attached and detached to the window frame 100 even if the operator is not an expert operator.

In addition, the air purifying plate 600 is installed on the upper part of the door to clean the air entering the room from the outside, so that the pleasant environment of the room can be maintained, and the vertical frame 300, the first and second horizontal frames 400 and 500, The vertical finishing frame 330 and the first and second horizontal finishing frames 490 and 590 are provided on the inner side of the room on the side of the room.

100: window frame
200: airtight pad
210: Pad body 220: Pad jam groove
230: a pad engaging groove 231: a pad engaging projection
300: vertical frame
310: first vertical frame 311: first vertical frame body
312: first vertical extension plate 313: first vertical latching projection
314: first vertical support bar 315: vertical frame catch bar
315a: first vertical jaw 316: first vertical bending bar
320: second vertical frame 321: first vertical frame body
322: second vertical extension plate 323: second vertical protrusion
324: second vertical support bar 324a: second vertical insertion projection
325: second vertical bending bar 330: vertical closing frame
331: Vertical finishing frame body 332: Vertical finishing frame gasket insertion groove
333: Vertical finishing frame projection 334: Vertical finishing frame hooking projection
335: Vertical finishing frame supporting projection
400: first horizontal frame
410: first horizontal frame body 411: protruding frame
420: horizontal frame support bar 421: horizontal frame insertion projection
430: first horizontal frame coupling hole 431: horizontal frame coupling projection
440: first horizontal frame rail projection 450: first horizontal frame fastening groove
451: first horizontal frame fastening protrusion 460: first horizontal finishing frame fastening protrusion
470: first horizontal frame support projection 470: first horizontal frame support projection
480: first horizontal frame blocking projection 490: first horizontal finishing frame
491: first horizontal finishing frame body
492: first horizontal closing frame gasket insertion groove
493: first horizontal finishing frame engaging projection
494: first horizontal finishing frame insertion projection
500: second horizontal frame
510: second horizontal frame body 511: first gasket insertion groove
520: second horizontal frame stone publication 530: second horizontal frame fastening groove
531: second horizontal frame fastening protrusion 540: second horizontal frame rail projection
550: second horizontal frame protrusion 560: second gasket insertion groove
570: second horizontal frame latching plate 571: horizontal latching jaw
580: second horizontal frame blocking projection 590: second horizontal finishing frame
591: second horizontal finishing frame body
592: Second horizontal closing frame gasket insertion groove
593: Second horizontal closing frame engaging projection
594: Second horizontal finishing frame blocking projection
600: air purifying plate
700: Opening windows
800: Fastener
810: Fastening gasket insertion groove 820: Fastening projection

Claims

A pad body 210 having an outdoor outer surface fixed to the inner surface of the inner side of the window frame 100 along the inner side of the inner side of the window frame 100 and a pad engaging groove 220 And a pad engaging groove 230 protruding inward from both sides of the inner side of the other side of the pad body 210 having the pad engaging groove 220 protruding from both sides thereof. (200);
A vertical frame 300 vertically disposed on the inner surface of the airtight pad 200 at both sides of the window frame 100 and at a central position;
A first horizontal frame 400 disposed horizontally on the inner surface of the airtight pad 200 at the upper and lower ends of the window frame 100;
A plurality of second horizontal frames 500 horizontally disposed between the first horizontal frames 400 at the upper and lower ends of the window frame 100;
And an opening glass (700) having a roller (750) at a lower end between the first horizontal frame (400) and the second horizontal frame (500).

[3] The apparatus of claim 1, wherein the vertical frame (300) comprises: a first vertical frame (310) provided on one side of an inner side of an interior side of the airtight pad (200);
A second vertical frame 320 provided on the other side of the inner side of the indoor side of the airtight pad 200 having the first vertical frame 310;
And a vertical finishing frame (330) provided on the inner side of the first vertical frame (310) and the second vertical frame (320).

[2] The apparatus of claim 1, wherein the first horizontal frame (400) comprises: a first horizontal frame body (410) horizontally passing through the center and having one end connected to the inner side of the airtight pad (200);
A protruding frame 411 protruding toward the inside of the room on the inner side of the first horizontal frame body 410;
The first horizontal frame body 410 is coupled to the inner side of the airtight pad 200 and is supported at one end of the airtight pad 200 in the direction of the airtight pad 200, A horizontal frame support bar 420 provided with a horizontal frame insertion protrusion 421 protruding in a direction of the horizontal frame support bar 420;
A pair of first horizontal frames 430 protruding in the direction of the airtight pad 200 from the first horizontal frame body 410 on the other side of the horizontal frame support bar 420 and having horizontally frame engaging protrusions 431 at the end thereof, A coupling member 430;
A pair of first horizontal frame rail protrusions 440 spaced at a predetermined interval from the protruding frame 411;
And a first horizontal frame coupling groove 450 provided between the pair of first horizontal frame rail projections 440 and having a first horizontal frame coupling protrusion 451 protruding inward from both sides of the upper portion. Padding maximizes insulation effect.

The second horizontal frame 500 includes a second horizontal frame body 510 extending vertically and having a plurality of first gasket insertion grooves 511 in the direction of the glass pane 700 at upper and lower portions thereof, Wow;
A second horizontal frame protrusion (520) protruding from the second horizontal frame body (510) toward the room side;
A second horizontal frame engaging groove 530 bent downward at the center of the second horizontal frame protruding plate 520 and having a second horizontal frame fastening protrusion 531 protruding inward from the inner side of both upper sides;
A pair of second horizontal frame rail protrusions 540 protruding upward from both sides of the second horizontal frame locking groove 530;
A second horizontal frame protrusion 550 protruding downward from a lower portion of the second horizontal frame locking groove 530;
And a second gasket insertion groove (560) provided on both sides of the second horizontal frame protrusion (550) in the direction of the opening glass, respectively, to maximize the heat insulation effect.

The air conditioner of claim 1, further comprising: a first horizontal frame (400) provided at an upper end of the inner side of the interior of the window frame (100) and a second horizontal frame (500) provided below the first horizontal frame And an air purifying plate (600) for purifying the air.

[3] The apparatus of claim 2, wherein the first vertical frame (310) comprises: a first vertical frame body (311) vertically penetrating through the center and coupled to one side of the inner side of the indoor side of the airtight pad (200);
A first vertical extension plate 312 protruding from one side of the inner side of the inner side of the first vertical frame body 311 toward the interior of the first vertical frame body 311 and bent at an end thereof in the center direction of the airtight pad 200;
And a first vertical locking protrusion (313) extending from the first vertical extending plate (312) so as to be bent in the direction of the airtight pad (200) and provided on the outer side.

The second vertical frame 320 has a second vertical frame body 321 vertically penetrating through the center of the second vertical frame 320 and corresponding to the first vertical frame 310 on the other side of the inner side of the inner side of the airtight pad 200. [ )Wow;
A second vertical extension plate 322 which protrudes from one side of the inner surface of the second vertical frame body 321 in the direction of the interior of the room and has an end bent by bending in the center direction of the airtight pad 200;
And a second vertical protrusion (323) extending from the second vertical extension plate (322) so as to bend in the direction of the airtight pad (200) and provided on the outer side.

[3] The apparatus of claim 2, wherein the vertical finishing frame (330) comprises: a vertical finishing frame body (331) adhered to the inner side inner side of the first and second vertical frames (310, 320);
A vertical finishing frame gasket insertion groove 332 provided on both sides of the vertical finishing frame body 331 in the direction of the filler glass 700;
A pair of vertical finishing frame protrusions 333 protruding in the direction of the airtight pad from the center of the vertical finishing frame body 331 to a predetermined distance in the right and left direction;
A vertical finishing frame locking protrusion 334 protruding outward at an end of the vertical finishing frame protrusion 333;
And a pair of vertical finishing frame support protrusions 335 protruding from the vertical finishing frame body 331 in the direction of the first and second vertical frames 310 and 320 on the outside of the vertical finishing frame projection 333. [ Which maximizes the insulation effect.

The first horizontal frame 400 includes a first horizontal finishing frame locking protrusion 460 protruding from the inner end of the protrusion frame 411 toward the first horizontal frame rail protrusion 440, Wow;
A first horizontal frame support protrusion 470 protruding from the first horizontal frame rail protrusion 440 of the protruding frame 411 in a lateral direction of the room;
A first horizontal frame locking protrusion 480 protruded in the direction of the second horizontal frame 500 between the first horizontal frame rail protrusion 440 and the first horizontal frame support protrusion 470;
And a first horizontal finishing frame (490) coupled to the first horizontal finishing frame locking protrusion (460) and the first horizontal frame locking protrusion (480).

[5] The apparatus of claim 4, wherein the second horizontal frame 500 extends downward in the second horizontal frame protrusion 520, the end portion extends in the direction of the second horizontal frame engaging groove 530, A second horizontal frame engaging plate 570 provided with a horizontal engaging jaw 571;
A second horizontal frame locking protrusion 580 protruded upward between the second horizontal frame rail protrusion 540 and the second horizontal frame locking plate 570;
And a second horizontal closing frame (590) coupled to the second horizontal frame locking plate (570) and the second horizontal frame locking projection (580).

The first vertical frame 310 includes a first vertical support bar 314 protruding outwardly on one side of the first vertical frame body 311 and supported on one side of the airtight pad 200, ;
And a vertical hooking bar 314 protruding in the direction of the airtight pad 200 and provided with a first vertical hooking protrusion 315a on the other side of the first vertical frame body 311 provided with the first vertical support bar 314, (315);
And a first vertical bending bar 316 extending outwardly from the other side of the first vertical frame body 311 provided with the first vertical support bar 314 and having an end bent in the direction of the interior of the room Which maximizes the insulation effect.

The second vertical frame 320 is supported on one side of the airtight pad 200 by being protruded outward in the direction of the outside of the second vertical frame body 321, A second vertical support bar 324 having a second vertical insertion protrusion 324a protruding from the second vertical support bar 324;
A second vertical bending bar 325 extending outward from the other side of the second vertical frame body 321 provided with the second vertical support bar 324 and having an end bent in the direction of the airtight pad 200, Wherein the heat insulation effect is maximized.

The first horizontal finishing frame 490 includes a first horizontal finishing frame body 491 and a second horizontal finishing frame protrusion 470 provided to be in close contact with the first horizontal frame supporting protrusion 470 and the first horizontal finishing frame locking protrusion 480, ;
A plurality of first horizontal finishing frame gasket insertion grooves 492 provided at one end of the first horizontal finishing frame body 491 in the direction of the filler glass 700;
The first horizontal finishing frame body 491 having the first horizontal finishing frame gasket insertion groove 492 protrudes in the direction of the protruding frame 411 and is coupled to the first horizontal finishing frame locking protrusion 460 A first horizontal finishing frame engaging projection 493;
The first horizontal finishing frame coupling protrusion 493 protrudes in the direction of the protruding frame 411 from the first horizontal finishing frame body 491 between the first horizontal finishing frame gasket insertion groove 492 and the first horizontal finishing frame coupling protrusion 493, And a first horizontal finishing frame insertion protrusion (494) inserted and coupled between the first horizontal frame locking protrusion (470) and the first horizontal frame locking protrusion (480).

[10] The apparatus of claim 10, wherein the second horizontal finishing frame (590) comprises: a second horizontal finishing frame body (591) provided to be in close contact with the second horizontal frame engaging plate (570);
A plurality of second horizontal finishing frame gasket insertion grooves 592 provided in the upper and lower portions of the second horizontal finishing frame body 591 in the direction of the filler glass 700;
A second horizontal frame locking groove 530 protruding in the direction of the second horizontal frame locking groove 530 above the first horizontal closing frame gasket insertion groove 592 provided below the second horizontal closing frame body 591, A second horizontal finishing frame engaging projection 593 engaged with the horizontal engaging jaw 571 of the first horizontal finishing frame engaging projection 593;
And a second horizontal finishing frame locking protrusion 594 protruding in the direction of the second horizontal frame locking groove 530 and coupled to the second horizontal frame locking protrusion 580 above the second horizontal finishing frame coupling protrusion 593 Which maximizes the heat insulation effect.

A gasket insertion groove 810 for inserting a gasket in the direction of the two side glass panes 700 is provided at one end and first and second horizontal frame fastening grooves 450 and 530 And a fastener (800) provided with a pair of fastening protrusions (820) to be inserted into the recesses

Installing an airtight pad (200) along the inner side of the room side of the window frame (100);
Constructing a vertical frame (300) in a direction perpendicular to the inner surface of the airtight pad (200) at both side ends of the window frame (100) and at a central position;
Installing a first horizontal frame (400) in the horizontal direction on the inner surface of the airtight pad (200) at the upper and lower ends of the window frame (100);
Installing a plurality of second horizontal frames (500) in a horizontal direction between a first horizontal frame (400) at an upper end portion and a lower end portion of the window frame (100);
Installing an air purifying plate (600) for purifying air between a first horizontal frame (400) and a second horizontal frame (500) at an upper end position of the window frame (100);
A primary window glass 100 provided with a roller 750 at a lower end between a first horizontal frame 400 and a second horizontal frame 500 under the window frame 100 and between a second horizontal frame and an upper second horizontal frame, (700);
The first horizontal frame fastening groove 450 of the first horizontal frame 400 at the lower end of the window frame 100 and the second horizontal frame fastening groove 530 of the second horizontal frame 500 at the center of the window frame 100, (800);
A secondary window glass having a roller 750 at a lower end between the second horizontal frame and the upper second horizontal frame between the first horizontal frame 400 and the second horizontal frame 500 under the window frame 100, (700);
And a step of installing a vertical finishing frame 330 and first and second horizontal finishing frames 490 and 590 on the inner side of the inside of the vertical frame 300 and the first and second horizontal frames 400 and 500 The installation method of the ventilation windows maximizing the adiabatic effect is characterized.