KR101526193B1 - Sliding windows improved heat insulation, airtight, assembly and safety performance - Google Patents

Abstract

The present invention relates to a sliding window with improved insulation performance, airtight performance, assemblability, and safety. The purpose of the present invention is to provide the sliding window with improved insulation performance, airtight performance, assemblability, and safety capable of reducing an air intake space and preventing an air flow by forming a detachable indoor supporting protrusion formed on a horizontal window frame forming the sliding window to provide a structure of successively assembling a window and a detachable water blocking protrusion to the window frame. The sliding window comprises the window frame (1) and left and right windows (2) sliding by a roller installed on a rail of the window frame. The window frame comprises an upper horizontal window frame (110), an outdoor supporting protrusion (130) projecting from the outdoor part of a lower horizontal window frame (120), and the detachable indoor supporting protrusion (140) joined to the indoor part of the lower horizontal window frame (120). The present invention is characterized by including a detachable water blocking protrusion (180) for improving the insulation capacity and the airtight capacity of the windows between the outdoor supporting protrusion and detachable indoor supporting protrusion.

Description

{Sliding windows improved heat insulation, airtight, assembly and safety performance improved insulation, airtightness, assembly and safety}

More particularly, the present invention relates to a door lock window, and more particularly, to an interior door lock door formed in a horizontal frame of a window frame constituting a window glass door locker, This is about the improved shutter window.

In general, residential and commercial buildings have become more sophisticated, so door systems are improving sealing, insulation and soundproofing effects in various ways.

A window is a window and a door that isolates the room from the outside, blocking the wind, allowing the room to enter the room or ventilating the room. The structure is made up of a window frame (or door frame) that forms a frame and a window (or door) that is mounted inside the frame.

The above-described windows are classified into a hinged type, a sliding type or a fixed type according to the opening manner. Also, the number of windows (or doors) installed in one window frame (or door frame) may be distinguished by a window, a double window, or a triple window, and a glass fitted to the window may be divided into a single glass or two single glass depending on the number In the meantime, by injecting an inert gas into the space portion or by forming a space layer, it is possible to separate the three single-layer glass and the double-layered glass which have improved insulation and sound insulation, And triple (or triple layer) glass with improved performance. There are various other categories.

In recent years, polyvinyl chloride (PVC), which is a synthetic resin material, is widely used as a material for forming a window frame (window frame) and a window (door). Because aluminum does not cause oxidation, such as decay, deformation or iron like wood, it is usually applied to a veranda. However, aluminum has a disadvantage in that the heat insulating effect is deteriorated due to the high thermal conductivity and the sound insulation and insulation effect is deteriorated due to generation of clearance at the assembled part during long-term use due to thermal deformation. In contrast, synthetic resin is superior to aluminum in its insulation effect, and in most cases it is installed at the boundary between living room and veranda. In this case, aluminum and synthetic resin construction windows are exemplified as aluminum, veranda and synthetic resin are not always installed at the boundary between the verandah and the living room.

FIG. 14 is a side view illustrating a window frame and a window structure according to an embodiment of the present invention, FIG. 15 is a side view illustrating a window frame and a window structure according to another conventional example, and FIG. Fig. 6 is a plan view showing a window frame and a window structure according to Fig.

The conventional window shown in FIG. 1 is a window installed on a balcony or a school window of a general house or an apartment, and has a structure in which a window is installed on a window frame, which is a constitution of a general shutter window as described above, and an insect screen is installed on the outside. It shows the glass installed.

A problem with such a conventional door sill window structure is that the outdoor sill (protruded when the insect jaws are present) and the indoor supporting sill protruding from the indoor side are extruded into a fixed shape The shadows installed in the rods have a structure considering these constraints for installation.

The outdoor support jaw and the indoor support jaw formed on the window frame are devices for securing the security of the windowpane. In particular, the outdoor support jaw is a safety device that prevents the windowpipe from falling out to the outside.

The outdoor support jaw is also a structure for increasing the airtightness and the heat insulating property by blocking the inflow of snow or the flow of air from the outside.

In the same way, the indoor support jaw is a safety device that prevents a safety accident from being caused by a window being pushed into the room. It is a structure for increasing the airtightness and heat insulation by blocking the inflow of snowball or the air flow into the room, So that the heat insulation is not deteriorated.

Therefore, it is preferable that the height of the outdoor supporting jaw and the indoor supporting jaw is larger than the height of the window frame.

However, since the window frame is to be fixed to the building structure in the window construction, and then the window is fixed to the fixed window frame, the height of the outdoor support jaw and the interior support jaw can be set low so that interference does not occur when the window frame is assembled There is a structural limitation that there is no outside.

Specifically, the method of installing the window on the window frame is to lift the upper horizontal window frame frame, insert the upper horizontal window frame frame first, and then install the lower horizontal window frame with the roller on the lower horizontal window frame frame.

For this purpose, in order to fit a windowpane to the upper horizontal window frame frame, a space should be formed in the upper horizontal window frame of the windowpane to accommodate rails protruding downward from the upper horizontal window frame frame.

In addition, there is a structural restriction that the height of the rails formed on the upper and lower horizontal window frames, the height of the outdoor supporting jaws and the height of the indoor supporting jaws can not be increased due to difficulty in assembling in a vertical position of the window, .

Due to the above-mentioned structural constraints, the conventional window is generally formed so that the height of the outdoor supporting jaw and the indoor supporting jaw formed in the upper and lower horizontal window frame frames is lower than that of the upper and lower horizontal window frames after the installation.

Also, the upper and lower horizontal window frames are formed to have an upper and lower horizontal window frame frame and a certain space portion due to the inherent limitations of the assembly.

In other words, due to the structural limitation that the hanging structure can not be enlarged due to the problem of assembling between the window pane and the window frame, the height of the outdoor supporting jaw and the indoor supporting jaw can not be made large, so that they are vulnerable to inflow of snow and foreign substances entering from the outside, There is a safety problem,

In addition, there have been structural drawbacks such as deterioration of airtightness and deterioration of heat insulation through space formed between upper and lower horizontal window frames and upper and lower horizontal window frames.

Therefore, development of windows that can overcome these structural limitations is urgent.

Korean Patent Laid-Open Publication No. 10-2013-0005363 (Jan. 16, 2013) Korean Patent Registration Registration No. 10-1167710 (2012. 07. 16) Korean Patent Registration Registration No. 10-1206423 (Nov. 23, 2012) Korean Patent Registration Bulletin Registration No. 10-1254366 (Apr.

SUMMARY OF THE INVENTION In order to solve the above problems, an object of the present invention is to provide a structure in which a window pillar and a removable pawl can be assembled on a window frame in a sequential manner by constructing an indoor support jaw formed on a horizontal window frame frame of a window frame constituting a shutter window, To reduce the air inflow space and to block air flow, thereby improving the insulation, airtightness, assembly and safety.

Another object of the present invention is to provide a window frame structure in which a height of an outdoor support jaw, a detachable indoor support jaw and a detachable water jaw formed on a horizontal window frame frame of a window frame is formed larger than a horizontal window frame height of a window window, And preventing the window from being separated from the window frame, thereby increasing the structural safety.

It is a further object of the present invention to provide a window frame structure for a window frame which comprises a horizontal window frame frame formed with an outdoor support jaw, a detachable indoor support jaw and a detachable water jaw having a height greater than the horizontal window frame height of the window frame, The airtightness, the watertightness and the ability to prevent the foreign matter from entering the window glass.

It is another object of the present invention to provide a railway car which forms a rail formed on a horizontal window frame frame of a window frame constituting a shutter window and on which a roller of a window is installed so as to reduce a space between a lower portion of the roller and a window frame, To increase the airtightness and the heat insulating capability.

According to an aspect of the present invention, there is provided a sunroof window comprising a window frame and left and right window sills slidable by a roller provided on the window frame,

Wherein the window frame comprises an upper horizontal window frame frame and an outdoor support jaw protruding from the outdoor side of the lower horizontal window frame frame and a detachable indoor support jaw coupled to the interior side of the upper horizontal window frame frame and between the outdoor support jaw and the detachable indoor support jaw, And a detachable window for enhancing the strength of the window glass is combined with the window glass.

In a preferred embodiment, the window frame is composed of a detachable horizontal bar outdoor support jaw coupled to the outdoor side and a removable horizontal bar indoor support jaw coupled to the indoor side for vertical top and bottom split, And a horizontal bar window frame frame having an upper surface and a lower surface between the horizontal bars and the lower surface of the inner bar, and a detachable water jaw for increasing heat insulation between the window panes and enhancing the airtightness.

In a preferred embodiment, the lower horizontal window frame frame may be formed with a water trough that engages the depressed rail and the detachable floor.

In a preferred embodiment, the upper horizontal window frame frame may be formed with a water jaw groove to which the protruding rail and the detachable water jaw are coupled.

According to a preferred embodiment of the present invention, a recessed rail and a water groove are formed on an upper surface of the horizontal bar sill frame, and a protruding rail and a water groove are formed on a lower surface thereof.

In a preferred embodiment, a gasket groove is formed at one end of the outdoor support jaw or the detachable indoor support jaw, so that a gasket of a flexible material may be provided in surface contact with the glass.

In a preferred embodiment, the outdoor supporting jaw, the detachable indoor supporting jaw, and the detachable water jaw may be relatively long such that the upper horizontal window frame or the lower horizontal window frame constituting the window is unexposed.

In a preferred embodiment, the gasket grooves are formed at the upper and lower ends of the detachable horizontal bar outdoor support jaw or the removable horizontal bar indoor support jaw, so that a gasket made of a flexible material can be provided in surface contact with the glass.

In a preferred embodiment, the detachable horizontal bar outdoor support jaw, the removable horizontal bar indoor support jaw, and the removable water jaw may be relatively long such that the upper horizontal window frame or the lower horizontal window frame constituting the window is unexposed.

In a preferred embodiment, the detachable water jaw is formed with a fastening portion at one end thereof to be fastened to the water leveling groove formed in the lower horizontal window frame frame or the upper horizontal window frame frame in a tight fitting manner, and a gasket groove for fastening a gasket, And can be formed in the both glass directions, respectively.

According to a preferred embodiment of the present invention, the detachable water jaw may have a gasket groove formed at one side thereof in the direction of both sides of the glass, and a fastening portion at the other side thereof may be formed in the watertight groove in a tight fitting manner.

In a preferred embodiment, the detachable water jaw is provided between the window and the window of the double pane, wherein one window gasket groove is spaced apart by the extension.

In a preferred embodiment, the recessed rail may be formed such that the rail top is unexposed to the frame surface.

According to a preferred embodiment of the present invention, the indwelling support jaw may be formed with an interference fit groove formed in the upper horizontal window frame frame or the lower horizontal window frame frame.

According to a preferred embodiment of the present invention, the detachable lateral bar outdoor supporting jaw or the detachable horizontal bar indoor supporting jaw is formed with a detent groove to be engaged with the detent projection formed in the horizontal bar window frame frame, And can be coupled again by the fastening means between the interference projections.

According to the present invention having the above-described structure, the door supporting window formed on the horizontal window frame frame of the window frame is assembled in a detachable manner, so that the window and the detachable floor are sequentially assembled to the window frame to reduce the air inflow space, Airtightness and assemblability are remarkably increased by blocking,

In addition, since the height of the outdoor supporting jaw, the detachable indoor supporting jaw, and the removable water jaw formed on the horizontal window frame frame of the window frame is formed larger than the horizontal window frame height of the window window, the window is uncovered, And the structural safety has been dramatically increased.

Also, since the height of the outdoor supporting jaw, the detachable indoor supporting jaw and the removable water jaw formed on the horizontal window frame frame of the window frame is larger than the horizontal window frame height of the window and the gasket contacting the glass is provided at the end portion, The advantage that the foreign matter inflow preventing force is remarkably increased,

In addition, a rail formed on a horizontal window frame frame of a window frame constituting a shutter window can be formed in a recessed manner, and a roller of a window can be installed on the rail, thereby reducing the space between the lower portion of the roller and the window frame, And an advantage that the heat insulation power is increased, and it is an invention which is expected to be widely used in industry.

1 is a perspective view illustrating a side cross-sectional structure of a Mississauga window according to an embodiment of the present invention,
2 is an exemplary view showing a side cross-sectional structure of a Mississauga window according to an embodiment of the present invention,
FIG. 3 is an exemplary view showing a flat section structure of a shutter window according to an embodiment of the present invention, and FIG.
FIG. 4 is an exemplary view showing a lower horizontal window frame structure according to an embodiment of the present invention,
5 is an exemplary view showing an upper horizontal window frame structure according to an embodiment of the present invention,
FIG. 6 is an exemplary view showing an interior supporting jaw according to an embodiment of the present invention,
FIG. 7 is an exemplary view showing a detachable water jaw according to an embodiment of the present invention. FIG.
FIG. 8 is an exemplary view showing a detachable water jaw according to another embodiment of the present invention,
FIG. 9 is a perspective view illustrating a side cross-sectional structure of the upper and lower elevation split-type unscheduled window according to another embodiment of the present invention,
FIG. 10 is an exemplary view showing a side cross-sectional structure of a window for dividing upper and lower-divided upper and lower windows according to another embodiment of the present invention,
11 is a view illustrating an example of a horizontal bar horizontal sill frame structure for dividing upper and lower slopes according to another embodiment of the present invention,
12 is an exemplary view showing a detachable bar bar indoor supporting jaw according to another embodiment of the present invention,
FIG. 13 is an exemplary view showing a detachable horizontal bar outdoor support jaw according to another embodiment of the present invention,
FIG. 14 is a side view illustrating a window frame and a window structure according to an embodiment of the present invention,
15 is a side view illustrating a window frame and a window structure according to another embodiment of the present invention,
16 is a plan view illustrating a window frame and a window structure according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a perspective view showing a side cross-sectional structure of a door lock window according to an embodiment of the present invention, FIG. 2 is an exemplary view showing a side cross-sectional structure of a door lock window according to an embodiment of the present invention, 1 is a view showing an example of a flat cross-sectional structure of a shutter window according to an embodiment of the present invention.

In the present invention, the door locker of the present invention includes a window frame 1 having a quadrangle shape, which is an outer frame, such as a general shutter lock window, and a pair of left and right window locks 2 surrounding the windshield 210 installed in the window frame 1, . And a roller 220 installed on a lower horizontal sill frame 120 constituting a lower part of the window is placed on an upper portion of a rail formed on the window frame and slid left and right.

The material of the window frame and the windowpane constituting the door stop window is made of a metal material, and preferably an aluminum material is the best.

In particular, in order to increase the airtightness and the heat insulating ability that can not be solved due to the assembling property of the conventional door shutter window according to the present invention, the indoor supporting jaw structure is constructed such that the space portion between the window frame and the window pane is drastically reduced during assembly, The present invention provides a detachable indoor support jaw to be separated when the window assembly is assembled on a window frame, which is not an extruded shape such as a conventional one.

That is, the window frame 1 according to the present invention is provided with an outdoor support protrusion 130 formed by extruding and protruding from the outdoor side of the upper horizontal window frame 110 and the lower horizontal window frame 120, (140) are provided to separate or couple together.

In addition, the present invention provides a detachable chin 180 (which is capable of significantly increasing the heat insulation and airtightness between the windowpane and the windowpane assembled between the outdoor supporting jaw 130 and the detachable indoor supporting jaw 140, ), And are sequentially assembled alternately with a window. The water jaw means a structure such as a barrier wall that can block the flow of air while preventing the inflow of water.

The reason why the water jaw having the same height as that of the present invention can not be provided in the conventional door sill window is that if a water jaw is extruded and fixedly projected on the upper horizontal window frame 110 and the lower horizontal window frame 120, This is because the angle of the window can not be assembled to the window frame due to the structure of the protruding water jaw near the rail. It is necessary to have a structure similar to a high-pitched jaw. However, this structure has a structural disadvantage that it is impossible to assemble a window frame on a window frame.

However, the present invention is solved by providing a detachable indoor support jaw 140 and a detachable water jaw 180, which is a structural disadvantage of the conventional Mississauga window.

The outer supporting jaw 130, the removable indoor supporting jaw 140 and the removable upper jaw 180 are relatively long so that the upper horizontal window frame or the lower horizontal window frame constituting the window pane 2 is unexposed, It acts effectively as a blocking wall, which significantly improves insulation, airtightness and assemblability.

3, the side cushioning member 230 is attached to the side frame of the window frame without a large protruding portion to prevent the inflow of air into the contact portion between the vertical frame of the window frame and the vertical frame of the window, To increase airtightness and insulation.

The side buffering member 230 may be made of an EPDM (Ethylene Prophlene Diene Monomer) material having excellent ozone resistance, heat resistance, cold resistance, and good wear resistance. With this structure, the side buffering member 230 of the EPDM material functions as a buffer between the vertical frame of the window frame and the vertical frame of the window, thereby preventing the inflow of air, thereby enhancing the airtightness and heat insulation.

4 is a view showing a lower horizontal window frame structure according to an embodiment of the present invention. In the lower horizontal window frame 120, a water groove 122 to which the recessed rail 121 and the detachable supporter 180 are coupled is formed do.

The reason why the recessed rail 121 is formed on the lower horizontal window frame 120 is that the height of the rail formed by extruding from the horizontal window frame frame is higher than the upper surface of the lower horizontal window frame frame Because of this, the space structure where the air can stay or flow is formed beside the rail. Such a space structure can be installed even if the mohair is installed at the lower part of the window to block the flow of air or dust such as the air through the rail. Due to the structure of the rail and the roller structure, the roller flows into the neighboring rail through a gap where the roller is not installed, and the flowing air again generates a continuous flow of air over the rail to the inside of the room, It is for solving.

That is, the recessed rail according to the present invention is formed so that the upper portion of the rail is not exposed on the surface of the frame, so that little air can flow or stay in the vicinity of the rail. Furthermore, since the space itself is on both sides of the recessed rail, it has a very efficient structure of airtightness and heat insulation on the side of the air flow because it is in a state of being depressed.

The watertight groove 122 to which the detachable supporter 180 is coupled is also recessed in the lower horizontal window frame 120 in the same manner as the recessed rail because the interference So that the assembling property can be improved.

A gasket groove 131 is formed at one end of the outdoor support protrusion 130 protruded from the outdoor side of the lower horizontal window frame 120 to provide a gasket 190 of a flexible material in surface contact with the glass. Unlike the conventional mohair, the gasket is in a state of being bent by being in contact with the elastic member made of a long member in the form of a plane, so that the elastic force is always maintained and the surface contact state is maintained. The gasket material may be any of synthetic resin materials, but it may be any material having excellent elasticity and excellent ozone resistance, heat resistance, cold resistance, and content. For example, a material such as EPDM (Ethylene Prophlene Diene Monomer).

Accordingly, even if a flow of air is generated from the lower side of the lower horizontal sill frame 120 to the upper side, the flow of air is blocked by the gasket to maintain the airtight state, thereby increasing the heat insulation and airtightness.

In addition, the lower horizontal window frame 120 is formed to protrude from the detachable indentation groove 142 formed in the detachable indoor support jaw 140 by projecting the detent protrusion 113 in the direction of the room. Preferably a pair, so that the binding force and the air tightness are good.

In addition, the outdoor support jaw 130 is formed to be relatively long so that the lower horizontal window frame constituting the window pane 2 is unexposed to effectively block the flow of air, thereby remarkably improving the insulation, airtightness, and assemblability .

5 is a view showing an upper horizontal window frame structure according to an embodiment of the present invention. In the upper horizontal window frame 110, a water groove 112 to which the protruding rail 111 and the detachable sup .

The upper horizontal window frame 110 is not provided with a recessed rail as in the case of the lower horizontal window frame 120 because a roller is not normally provided so that not only the recessed rail is required but also the upper and lower sides are recessed Since the window is separated from the window frame too easily, the upper side forms the protruding rail 111 to increase the fixed holding force of the window.

However, the protruding rail according to the present invention is constructed by a pair of protruded rails, so that the flow of air can not be easily moved to the neighboring rails, So that the airtightness and heat insulating performance are increased.

The watertight groove 122 to which the detachable supporter 180 is coupled is configured to be recessed in the upper horizontal window frame 110 so that there is no protruding structure that interferes when assembling the window in the upper horizontal window frame 112 So as to improve the assemblability.

A gasket groove 131 is formed at one end of the outdoor support protrusion 130 protruded from the outdoor side of the upper horizontal window frame 110 to provide a gasket 190 of a flexible material in surface contact with the glass. Unlike the conventional mohair, the gasket is in a state of being bent by being in contact with the elastic member made of a long member in the form of a plane, so that the elastic force is always maintained and the surface contact state is maintained.

Accordingly, even if a flow of air occurs from the upper side of the upper horizontal sill frame 110 to the lower side, the flow of air is blocked by the gasket and the airtight state is maintained.

In addition, the upper horizontal window frame 110 is formed to protrude into the detent groove 142 formed in the detachable indoor support jaw 140 by projecting the detent protrusion 113 in the direction of the room. Preferably a pair, so that the binding force and the air tightness are good.

The outdoor support jaw 130 is formed to be relatively long so that the upper horizontal window frame forming the windowpane 2 is unexposed, thereby effectively blocking the flow of air, and thus the insulation, airtightness, and assemblability are remarkably improved.

FIG. 6 is an exemplary view showing an interior supporting jaw according to an embodiment of the present invention. In the interior supporting jaw 140, an interference fit protrusion (not shown) formed laterally in the upper horizontal window frame 110 or the lower horizontal window frame 120 113, and 123, respectively, and are tightly coupled to each other in an interference fit manner, thereby facilitating separation and coupling.

It is preferable to use a pair of the interference fit projections and the interference fit groove. In this case, the coupling force is increased, and the flow of air through the minute gap due to the interference fit can be blocked in multiple stages, It is possible to have an airtight force and an insulating force which are not lower than those of the structure.

A gasket groove (141) is formed at one end of the detachable indoor support jaw, and a gasket (190) of a flexible material is provided in surface contact with the glass.

 Unlike the conventional mohair, the gasket is in a state of being bent by being in contact with the elastic member made of a long member in the form of a plane, so that the elastic force is always maintained and the surface contact state is maintained.

Therefore, even if a flow of air occurs from the upper side of the upper horizontal window frame 110 to the lower direction or from the lower side of the lower horizontal window frame 120 to the upper direction, the flow of air is blocked by the gasket, The airtightness and the heat insulation of the heat exchanger are increased.

The detachable indoor support jaw 140 is formed to be relatively long so that the upper horizontal window frame or the lower horizontal window frame of the windowpane 2 is unexposed and functions as a wall for effectively blocking the flow of air, This is dramatically improved.

FIG. 7 is an illustration showing a detachable water jaw according to an embodiment of the present invention. In the detachable water jaw 18, a gasket groove 181 is formed at one end thereof in the direction of both glass sides, And a fastening portion 182 fastened in a tight fitting manner.

The detachable water jaws are fastened to the water jaws in a detent manner so that they are removed when the window sill is installed on the window frame. When the window sill is assembled sequentially, the windows are sequentially assembled together to maximize assembling performance of the door sill window according to the present invention, It plays a key role in increasing the insulation.

A gasket 190 made of a flexible material is provided in the gasket groove 181 formed in the detachable supporter 180 so as to be in surface contact with the glass 210.

Unlike the conventional mohair, the gasket is in a state of being bent by being in contact with the elastic member made of a long member in the form of a plane, so that the elastic force is always maintained and the surface contact state is maintained.

Therefore, even if a flow of air occurs from the upper side of the upper horizontal sill frame 110 to the lower side of the lower sill frame 120, the flow of air is blocked by the gasket, , The air tightness is increased.

The detachable supporter 180 is formed relatively long so that the upper horizontal window frame or the lower horizontal window frame of the windowpane 2 is unexposed and functions as a wall that effectively blocks the flow of air, .

FIG. 8 is an exemplary view showing a detachable water jaw according to another embodiment of the present invention. The basic structure of the detachable water jaw is the same as that shown in FIG. 7 except that the installation position is a double- When the spaces are wide, one of the gasket grooves is spaced apart by the extended portion 183 to correspond to the length.

FIG. 9 is a perspective view showing a side cross-sectional structure of the upper and lower split flooring windows according to another embodiment of the present invention. FIG. 11 is a view illustrating an example of a horizontal bar horizontal sill frame structure for dividing upper and lower slopes according to another embodiment of the present invention. FIG. 13 is an exemplary view showing a detachable horizontal bar outdoor support jaw according to another embodiment of the present invention.

In the illustrated structure, a horizontal bar window frame 150 is added to the non-bar windows described in FIGS. 1 to 8. The basic structure is replaced with the above description to avoid redundant description.

The horizontal bar window frame 150 includes a detachable horizontal bar outdoor support jaw 160 coupled to the outdoor side for vertically dividing the window frame 1 constituting the window shutter window and a detachable horizontal bar indoor support 160 coupled to the indoor side, And a detachable supporter 180 for increasing the heat insulation between the windowpane 2 and the airtightness of the detachable side bar outdoor support rim 160 and the detachable horizontal bar indoor support rim 170, And a horizontal bar window frame 150 coupled with the horizontal bar window frame 150.

A raised rail 151 and a water groove 152 are formed on an upper surface of the horizontal bar window frame 150 and a protruding rail 153 and a water groove 154 are formed on a lower surface thereof.

Since the upper portion of the rail 151 is formed so as not to be exposed on the surface of the frame, there is almost no space in which the air can flow or stay near the rail. Further, the space itself is on both sides of the depressed rail, Therefore, airtightness and heat insulation on the air flow side are very efficient.

The gasket grooves 161, 171 and 181 are formed in the detachable lateral bar outdoor support jaw 160, the removable horizontal bar indoor support jaw 170 and the removable supporter 180, (Not shown).

Unlike the conventional mohair, the gasket is in a state of being bent by being in contact with the elastic member made of a long member in the form of a plane, so that the elastic force is always maintained and the surface contact state is maintained.

Therefore, even if a flow of air is generated, the flow of air is blocked by the gasket and the sealed state is maintained, thereby increasing the heat insulation and airtightness.

The detachable horizontal bar outdoor support ridge 160, the removable horizontal bar indoor support ridge 170 and the removable ridge 180 are relatively long so that the upper horizontal window frame or lower horizontal window frame constituting the window pane 2 is unexposed do. As a result, it acts as a wall that effectively blocks the flow of air, which significantly improves heat insulation, airtightness and assemblability.

In addition, the detachable lateral bar outdoor support jaw or the detachable horizontal bar indoor support jaw is formed with the interference fit grooves 162 and 172 to be coupled with the interference fit protrusions 155 formed in the horizontal bar sash frame.

In some cases, the detachable lateral bar outer supporting jaw 162 is coupled again with the interference fit protrusion 155 by the coupling means 163 and the coupling groove 156 formed in the interference fit protrusion 155 . The fastening means refers to a fastening means such as a bolt which can be inserted. The fastening means and the fastening groove are formed of a plurality of members to provide a strong coupling force.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

(1): window frame (2): window pane
(110): upper horizontal window frame (111, 153): projecting rail
(112, 122, 152, 154): water groove (113, 123, 155)
(120): Lower horizontal sill frame (121, 152): Raised rail
(130): outdoor support jaws (131, 141, 161, 171, 181): gasket grooves
(140): the detachable indoor support tabs (142, 162, 172): the interference fit groove
(150): horizontal bar window frame frame (156): fastening groove
(160): a detachable horizontal bar outdoor support jaw (163): a fastening means
(170): detachable bar bar indoors support jaw (180): detachable sill
(181): gasket groove (182): fastening portion
(183): extensions (190, 191): gasket
(210): glass (220): roller
(230): side buffer member

Claims (14)

Claims [1] A window shutter for window frames, comprising a window frame and left and right window pads slidable by a roller provided on the window frame,
Wherein the window frame comprises an upper horizontal window frame frame and an outdoor support jaw protruding from the outdoor side of the lower horizontal window frame frame and a detachable indoor support jaw coupled to the interior side of the upper horizontal window frame frame and between the outdoor support jaw and the detachable indoor support jaw, And a detachable pawl for increasing the force,
The lower horizontal window frame frame is formed with a water level groove in which a rail-shaped rail and an attachable and detachable floor are formed so that an upper portion of the rail is uncovered on a surface of the frame, and the upper horizontal window frame frame is formed with a water groove to which the protruding rail and the detachable- ,
Wherein the outdoor supporting jaw, the detachable indoor supporting jaw and the detachable water jaw are relatively long such that the upper horizontal window frame or the lower horizontal window frame constituting the window is unexposed, .
The method according to claim 1,
Wherein the window frame comprises a detachable horizontal bar outdoor support jaw coupled to the outdoor side and a removable horizontal bar indoor support jaw coupled to the interior side for top and bottom elevation split, the detachable horizontal bar outdoor support jaw and the detachable horizontal bar indoor support jaw And a horizontal bar window frame frame having an upper surface and a lower surface coupled to a detachable water jaw for heat insulation between a window and a door for increasing airtightness.
delete delete The method of claim 2,
Wherein a recessed rail and a water groove are formed on an upper surface of the horizontal bar window frame, and a protruding rail and a water groove are formed on a lower surface thereof.
The method according to claim 1,
Wherein a gasket groove is formed at one end of the outdoor supporting jaw or the detachable indoor supporting jaw so that a gasket of a flexible material is in surface contact with the glass.
delete The method of claim 2,
And a gasket groove is formed at the upper and lower ends of the detachable horizontal bar outdoor support jaw or the detachable horizontal bar indoor support jaw so that a gasket of a flexible material is in surface contact with the glass. Clerk window.
The method of claim 2,
Wherein the detachable horizontal bar outdoor supporting jaw, the removable horizontal bar indoor supporting jaw, and the detachable water jaw are relatively long so that the upper horizontal window frame or the lower horizontal window frame constituting the window is uncovered. Improved shutter window.
The method according to claim 1 or 2,
The detachable water jaw is provided with a gasket groove formed at one end thereof in the direction of both glass sides and a fastening part formed at the other end thereof in a manner to be coupled with a water jaw in a forced fit manner. The Mississauga window.
The method of claim 10,
Wherein the detachable water jaw is provided between a window and a window of the double window, wherein one of the gasket grooves is spaced apart by the extended portion, and the door is improved in airtightness, assembly, and safety.
The method of claim 5,
Wherein the recessed rail is formed such that an upper portion of the rail is unexposed on a surface of the frame.
The method according to claim 1,
Wherein the indoor supporting jaw is formed with an interference fit groove formed in the upper horizontal window frame frame or the lower horizontal window frame frame.
The method of claim 2,
The detachable lateral bar outdoor supporting jaw or the detachable horizontal bar indoor supporting jaw is formed with an interference fit groove formed in the horizontal bar sash frame and an interference fit groove is formed between the interference fit groove of the detachable horizontal bar outdoor support and the interference fit bar, Wherein the heat exchanger is re-coupled by means of a heat exchanger, an airtight assembly, and an improved safety.

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