KR101577032B1 - Triple insulated structure horizontally sliding window - Google Patents

Abstract

The present invention relates to a triple insulated structure horizontal sliding window. The horizontal sliding window is equipped with a shielding insulation material between frames. At least two floor rail parts comprising a guide insulation material and a guide cover integrally forming a first introduction guide rail and a second introduction guide rail in the upper side of the shielding insulation material are installed. A glass is protected by a glass frame in the upper side of the floor rail part. A window installed with a plurality of roller parts in a longitudinal direction of a connecting insulation material installed between the glass frames is slidably coupled and an extended insulation material is installed in a side opposite to the window, thus shielding the introduction of hot air or cold air in the room or the discharge of hot air or cold air to the outside between the window and the floor rail part, or through a side of the window, or a glass frame of the window. According to the present invention, a shielding insulation material and a guide insulation material block the flow of cold air or hot air flowing to a frame, and there is no flow of cold air or hot air between rollers which are in contact with the first guide rail, therefore the generation of frost or fog on the widow is prevented, a side of the window is covered by an extended insulation material, and a gasket installed in the extended insulation material finishes the space between the windows, thus an inflow of dust or foreign materials through the space between the windows is prevented. Additionally, introduction and discharge of hot air or cold air in and out of the room through the window, the floor rail part and the window side surface part is prevented, thereby improving room cooling and heating efficiency, reducing the energy consumption rate, and improving reliability of the product.

Description

{Triple insulated structure horizontally sliding window}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a door for a door, and more particularly, to a door for a door with a triple insulation structure that prevents outdoor air from entering the room or discharging indoor air to the outside.

Generally, a window frame is a frame that guides a window that blocks or opens an interior or exterior of a building to be moved in a horizontal or vertical direction.

Here, the window frame is installed in the open part of the building, and the width thereof is changed according to the number of windows installed (for example, double window, triple window, etc.).

Since the window frame is made of aluminum, the window frames are structured such that heat or cold air can be transmitted more quickly, while the rigidity is strong. The heat insulating material is installed to block the indoor air or the outdoor air.

Patent Document 1 discloses a conventional insulating window. Referring to this, a rail is protruded in parallel on an inner wall of a window frame, an opening is formed along the inner wall of the window frame, a storage space is formed inside the window, And a heat insulating member is embedded in the storage space.

Here, cool air or heat inside or outside the room is transmitted to the window frame, and cold air or heat is moved along the window frame and is blocked by the heat insulating member to prevent inflow of cold air or heat into or out of the room.

The rails protruding from the inner wall of the window frame guide the driving of the rollers of the four-sided frame supporting the oblique side of the glass, thereby sliding the four-way frame.

That is, the roller guided and driven by the rail moves the four-way frame in a predetermined direction, so that the glass, which is installed in the window frame and hermetically seals the room and the inside / outside space, is opened to communicate the room and the inside / outside space.

However, the above-described Patent Document 1 has the following problems.

First, the temperature of the rail receiving the heat of the window frame or the cold air is repeatedly changed so that the strength thereof is lowered. As the strength is lowered, the rail is not easily guided by the load of the four- The cold air or heat is transferred to the glass through the rollers which are in contact with the glass depending on the temperature of the glass, and the cold air transferred to the rails in the winter season is transmitted to the glass through the rollers, And the rail, the cooling and heating efficiency of the room is lowered.

Second, cold air, heat and dust inside and outside the room are introduced into the room or discharged to the outside through the space between the window frames arranged alternately, and the side edge of the window frame receives the room air, The inner window frame and the outer window frame collide with each other due to the movement acceleration of the window frame which is slidably moved and slid to each other.

Thirdly, when the window frame surrounding the windshield is moved, the supporting force of the rails is weak, so that the rail is distorted or deformed to be damaged. As a result, cold and heat are introduced into the room or discharged outdoors through the four- , And there is a problem that the window or window is generated in the window by the cold air or the heat transferred to the window glass.

KR 20-0360565 Y1

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a heat insulating material which blocks cold air or heat flow between frames of a floor rail, The guide guiding rails for guiding the sliding movement of the guide guiding rails are integrally formed, so that the cold air or heat transmitted through the frame is blocked by the shielding thermal insulator and the guide insulator, And the guide insulator blocks the flow of cold air or heat so that the cold air or heat is prevented from being transmitted to the roller through the first guide guide rail.

It is a further object of the present invention to provide a floor cover which covers the upper end of an extended wall formed with the rainwater guide hole in the extending wall of the floor railing with a guide cover so that the rainwater accumulated between the floor rails is passed through the space between the rainwater guide hole and the extending wall Which is a triple insulated structure for discharging in the direction of the arrow.

Another object of the present invention is to provide a glass frame frame, which comprises a pair of glass frame frames which are opposed to each other with front and rear edges and side edges of the glass, By providing the roller portion, the space between the outdoor side glass frame frame and the indoor side glass frame frame is disconnected by the connection heat insulating material, and the cold air or heat is prevented from flowing into the room through the glass frame frame or being released from the outdoor space. It is to provide an intelligence.

It is another object of the present invention to provide a sliding door which is provided with a sliding window and on which a heat insulation material is provided on one side of the window to allow cool air or heat inside or outside the room to flow into or out of the room Which is intercepted by the heat insulating structure.

In order to accomplish the object of the present invention, the triple insulated structure according to the present invention is characterized in that the upper end of the triple insulated structure is formed with an upwardly extending extension wall on the side facing each other, A pair of frames, and a barrier insulating material installed between the frames to block cold air or heat inside or outside the room from flowing into the room or out of the room through the frame, A guide insulator having a first guide rail integrally formed on an upper surface thereof, and a guide insulator formed integrally with an upper surface of the cover insulator and an aluminum material And is connected to the guide insulator so as to close the upper end of the extension wall in which the rainwater guiding hole is formed And a guide cover having a second guide rail at the height of the first guide rail, the guide rail being disposed at least two in parallel with each other; A glass frame frame which is formed as a pair of glass plates facing each other and which covers the front and rear edges and side edges of the glass to protect the side surface of the glass; A plurality of heat insulating members disposed on the bottom surface of the glass frame frame to prevent cold air or heat from flowing into the glass through the space between the frames, And a roller portion rotatably driven along the second guide guide rail, wherein the window is slidably moved so as to be interlaced with each other; And an extension insulator fixedly installed on one side of the window facing each other to block cold air or heat inside or outside the room from being introduced into the room or out of the room through the side of the window.

According to the present invention, in the insulating window of the triple insulated structure, the barrier insulating material of the bottom rail is formed so as to be separable upward and downward between the frames, and a plurality of partition walls Is formed.

According to the present invention, the insulating barrier material of the bottom rail is formed in a solid shape filled with a hollow to fill the space between the frames.

According to the present invention, there is provided a triple insulated structure according to any one of claims 1 to 3, characterized in that the frame has a pair of locking grooves formed on opposite sides of the frame, and both ends of the blocking insulation are formed with locking protrusions .

In the case of the triple insulated structure according to the present invention, the supporting insulator of the guide insulator is formed to have at least three or more protrusions radially spread to bear the load applied to the cover.

In the triple insulated structure according to the present invention, the guide insulator is characterized in that a filling insulator is further spilled into a space between the support beams.

In the triple insulated structure according to the present invention, the connection heat insulating material of the window is formed as a pair so as to be separated from each other, and a supporting wall supporting the outer surface of the vertically penetrating fastening member is protruded .

In the window of a triple insulated structure according to the present invention, the window may be formed with an engaging groove recessed in an inverted trapezoidal shape on opposite sides of the glass frame frame, And an inverted trapezoidal engaging portion is formed in the engaging portion.

According to a tenth aspect of the present invention, there is provided a triple insulated structure according to the present invention, wherein the roller portion includes: a roller fixing portion which is hollow and opened downward and is fixed to the lower portion of the connection heat insulating member by a fastening member; And a roller which is rotatably installed inside the roller fixing part and is rotationally operated.

In the window of a triple insulated structure according to the present invention, between the glass frame frames of the window, a cover which covers the inner frame of the glass frame frame and blocks the transmission of cold air or heat to the glass frame frame and the connection heat insulating material And a heat insulating material is further provided.

The glass frame frame provided on both sides of the glass frame frame of the window so as to face each other in the direction between the windows has a front or rear edge and a side edge of the glass, A lower frame; A stool frame provided so as to be spaced apart by a predetermined distance in the outer direction of the frame; And a window insulator installed between the inner and outer frame to connect the inner frame and the outer frame.

In the triple insulated structure according to the present invention, the extended heat insulating material is formed so that the ends thereof are curved in directions opposite to each other, and that the extended heat insulating material is prevented from entering at least a predetermined depth in a direction facing each other And a pressing member for pressing the pressing member.

In the case of the triple insulated structure according to the present invention, the extended insulation is provided with a gasket on one surface facing the window to block the window from rubbing against the extended insulation.

In the heat insulating window according to the present invention, the shielding insulating material and the guide insulating material block the flow of cold air or heat flowing through the frame, so that cold air or heat is prevented from entering or exiting the room, So that there is no flow of cold or hot air between the first guide guide rail and the roller which is in contact with the first guide rail, thereby preventing frost or frost on the window and forming at least three or more than three So that the supporting force for supporting the window is improved.

Further, the upper end of the extension wall formed with the rainwater guide hole is covered with the guide cover, and the space portion is formed therebetween, whereby rainwater accumulated between the floor rails is guided through the space between the rainwater guide hole and the extending walls, do.

In addition, the cold air or the heat is blocked by the connection insulator to prevent the inflow or outflow of the yarn into or out of the yarn, the glass frame frame that freely slides the glass by the roller driving of the roller portion is freely slidingly moved, The transmitted cold air or heat is blocked by the joint thermal insulating material, thereby preventing the cold air or the heat from being transferred to the glass, thereby preventing the glass from being frosted or frosted to improve the heat insulating performance.

Further, since the side surface of the window is covered with the extension heat insulating material, the heat or cool air inside or outside the room is blocked from flowing into or out of the room through the window, and the gasket installed in the extension heat insulating material closes the space between the windows, It is prevented that dust or foreign matter is infiltrated into the window frame and that the pushing member provided at the end of the extended heat insulating member restricts the depth of entry of the extended heat insulating material so that the window moved by the echoes opposite to each other is prevented from colliding with the window frame, It is advantageous in that the efficiency is increased and the reliability of the product is improved at the same time as the energy consumption rate is lowered.

1 is a schematic perspective view of a heat insulating window according to the present invention;
2 is a side sectional view of a heat insulating window according to the present invention.
3 is a plan sectional view of a heat insulating window according to the present invention.
4 is a detailed view of a guide insulator of a floor rail of a heat insulating window according to the present invention.
5 is a detailed view of a guide cover of a floor rail of a heat insulating window according to the present invention.
FIG. 6 is a plan view of a bottom rail portion of a heat insulating window according to the present invention as viewed from above; FIG.
7 is a detailed view showing a window of a heat insulating window according to the present invention;
FIG. 8 is a detailed view of a state where windows are staggered from each other in a heat insulating window according to the present invention. FIG.
9 is a view showing a state in which a filling insulating material is buried between holding beams of an insulating window according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIGS. 1 to 9, the frames are installed so as to face each other and are formed as a pair.

The bottom rail part 100 includes a pair of frames 110 formed with extending walls 113 extending upward from the side surfaces facing each other and having a rainwater guide hole 113a formed on a side surface of the extending wall 113, (120) installed between the frames (110) to block cold air or heat inside or outside the room from flowing into the room or out of the room through the frame (110) A cover 132 which is tightly coupled to the upper end of the extension wall 113 to finish the upper end of the extension wall 113 and which is supported under the cover 132 to support the load applied to the cover 132 A guide insulator 130 formed integrally with the first guide guide rail 131 on the upper surface thereof and a predetermined length of aluminum material and joined to the guide insulator 130 to form the rainwater guide hole 130, 113a are formed on the upper end of the extension wall 113, And a guide cover 140 having a second guide rail 141 having a height equal to the height of the first guide rail 131 on the upper surface thereof.

The frame 110 is connected by the blocking insulating material 120 and the guide insulating material 130.

And engaging grooves 111 are formed on the side surfaces of the frame 110 facing each other.

The engaging groove 111 may have an inverted trapezoidal shape.

The catching groove 111 prevents the blocking heat insulating material 120 from being detached from the frame 110 by engaging the locking protrusion 122 of the blocking insulating material 120.

The extension wall 113 covers the side of the guide insulator 130 to prevent the guide insulator 130 from flowing laterally.

The rainwater guide holes 113a induce a flow of rainwater between the bottom rails 100 arranged at least two or more to guide the rainwater to fall outdoors in the floor railing 100 .

The blocking insulating material 120 is preferably made of a polyamide material.

The blocking insulating material 120 is formed so as to be separable upward and downward between the frames 110, and a plurality of partition walls 121 for blocking the flow of cold air or heat are formed therebetween.

The blocking insulating material 120 is partitioned by the partition 121 to form a space 121a therebetween.

The blocking insulating material 120 may be formed by leaving a cool air or a heat in the outdoor space portion 121a on the basis of the partition wall 121 and preventing the outdoor space portion 121a Residues of cold or hot.

The partition wall 121 supports between the blocking insulating materials 120 and blocks cold air or heat remaining on the space 121a from entering or exiting the room.

At both ends of the blocking insulating material 120, a locking protrusion 122 is formed to be engaged with the locking protrusion 111, and the locking protrusion 122 has an inverted trapezoidal shape.

The locking protrusion 122 is engaged with the locking groove 111 to prevent the blocking insulating material 120 from being detached from the frame 110.

The guide insulator 130 is preferably made of polyamide.

The cover 132 blocks the transfer of cold air or hot air rising upward through the extension wall 113 to the roller unit 240.

Both ends of the cover 132 come into close contact with the upper end side surface of the extending wall 113 to close the opening between the extending walls 113.

One end of the support beam 133 is preferably in close contact with the blocking insulating material 120.

At least three retaining ribs 133 of the guide insulator 130 are formed to spread radially and support the load applied to the cover 132.

The space between the support beams 133 of the guide insulator 130 is further filled with the charge insulation material 134.

The charge insulation material 134 is preferably made of a foam sponge or a back-up material.

The guide cover 140 is horizontally connected to the guide insulator 130 to guide horizontal movement of the window 200 and to prevent rainwater or dust from entering the pair of frames 110 do.

Preferably, the guide cover 140 covers the upper end of the frame 110 exposed in the outdoor side in a state where the windows 200 are staggered to seal the indoor space.

The window 200 is formed as a pair of plate-like glass 210 facing each other and covers the front and rear edges and side edges of the glass 210 to protect the side of the glass 210 A joint insulating material 230 installed between the glass frame 220 to block the inflow of cold air or heat into the glass 210 through the space between the glass frame 220 and the joint insulating material 230, The first guide rail 131 and the second guide rail 141 are formed in a plurality of along the length direction of the joint heat insulating material 230 provided on the bottom surface of the glass frame 220 of the joint insulating material 230, And a roller unit 240 that is rotationally driven along the guide rails 241 and 242, respectively.

The glass 210 is slidably moved by the glass frame 220 to seal the indoor space or to open the indoor space.

The glass 210 blocks wind, dust, rain, and the like blowing from the outside into the room.

The glass frame frame 220 fixes the glass 210 at a central portion thereof to prevent the side surface of the glass 210 from being damaged by an external impact.

The side surfaces of the glass frame 220 facing each other are formed with recesses 221 which are recessed in an inverted trapezoidal shape.

The latching groove 221 secures the locking protrusion 232 of the connection heat insulating member 230 to prevent the connection heat insulating member 230 from being detached from the glass frame 220.

The connection heat insulating members 230 are formed as a pair so as to be separated from each other and protrude from the support wall 231 supporting the outer surface of the fastening member B vertically penetrating therebetween.

The support walls 231 are protruded in a pair so as to face each other to support the outer surface of the fastening member B. [

The support wall B is protruded from one of the pair of the joint heat insulators 230 and supports the other joint insulator 230 by supporting it.

The distance between the support walls 231 is preferably the same as the outer diameter of the fastening member B. [

On both sides of the connection heat insulating member 230, an inverted trapezoidal locking protrusion 232 is formed to be engaged with the locking groove 221.

The locking protrusion 232 is inserted into the locking groove 221 to prevent the connection thermal insulation 230 from being separated from the glass frame 220.

The connection insulator 230 forms a space 231a adjacent to the support wall 231 with respect to the support wall 231.

The space portion 231a keeps the cold air or the heat transmitted through the glass frame 220 from being blocked, thereby preventing the indoor or outdoor heat or cool air from flowing into the room or being discharged to the outside.

Preferably, the connection insulator 230 is made of polyamide.

The roller unit 240 has a hollow shape with an open bottom and includes a roller fixing unit 241 provided below the connection thermal insulation member 230 and fixed by a fastening member B, And a roller 242 which is rotatably installed and rotated.

The roller unit 240 is slidably moved along the first guide rail 131 and the second guide rail 141 of the guide insulator 130 of the bottom rail part 100 provided at the opened part of the building, The glass frame 220 holding the glass 210 is horizontally moved.

The roller fixing portion 241 is fixed by a fastening member B vertically penetrating the connection heat insulating member 230 and the cover heat insulating member 250 in a state of being closely contacted with the connection heat insulating member 230 or the cover heat insulating member 250 .

The roller 242 is closely attached to the first guide rail 131 or the second guide rail 141 of the guide insulator 130 installed in the opened portion of the building and is rotationally driven.

A cover insulating material 250 covering the inner edge of the glass frame 220 to block the transmission of cold air or heat to the glass frame 220 and the connection thermal insulating material 230 is provided between the glass frame 220, Is installed.

The cover insulator 250 is formed in a shape of "┌┐" so as to block the transfer of cool air or heat to the glass frame 220 and the connection heat insulator 230.

The cover insulation 250 is preferably made of a polyamide material.

The glass frame 220 provided on both sides of the glass frame 220 of the window 200 and facing each other in the direction between the windows 200 is formed with a front or rear edge of the glass 210, A frame 223 surrounding the side frame and a frame 223 spaced apart from the frame 222 in a direction spaced outward from the frame 222 and a frame 223 provided between the frame and the frames 223, 222, 223) to each other.

The extended heat insulating material 300 is fixed to one side of the window 200 facing each other to block cool air or heat inside or outside the room from entering the room through the side of the window 200 or being discharged outdoors.

The extended heat insulating material 300 is preferably made of polyamide.

The extended heat insulating material 300 is tightly fixed to one side of the window 200 by a fastening member B fastened to the side of the window frame 220 facing each other of the window 200.

The extended heat insulating material 300 is installed at the same height as the cover finishing material 330 covering the side surface of the window 200.

The extension insulator 300 is formed to be bent in a direction in which the ends thereof are opposed to each other and has a pressing member 310 for restricting entry of the extended insulator 300 at a predetermined depth or more in a direction in which the extension insulators 300 face each other do.

The pressing member 310 is pressed against the end of the extended heat insulating material 310 to prevent the extended thermal insulating material 300 from entering the depth more than a predetermined depth in the direction in which the mutually opposing directions intersect, do.

The pressing member 310 is buffered while its distal end bends inward.

The pressing member 310 is preferably made of a polyamide material and can be changed into various materials having elasticity according to the user's selection.

The extension insulator 300 is provided with a gasket 320 on one side facing the window 200 to block the window 200 from rubbing against the extension insulator 300.

The gasket 320 maintains a gap between the window 200 and the extended heat insulating material 300 and blocks foreign substances or dust from entering the space between the windows 200.

The triple insulated structure according to the present invention having the above structure is used as follows.

In the following description, the bottom rail portion will be mainly described.

First, referring to FIG. 4, a pair of frames 110 are installed to face each other in a room of the building, and the inside and outside of the building are opposed to each other, and the block insulating material 120 is sandwiched therebetween.

The blocking insulating material 120 is inserted and fixed between the frames 110 by fitting the locking protrusions 122 of the blocking insulating material 120 into the locking grooves 111 of the frame 110 .

Particularly, the locking protrusions 122 of the blocking insulating material 120 and the locking grooves 111 of the frame 110 are formed in an inverted trapezoidal shape so that the blocking insulating material 120 is firmly fixed to the frame 110 .

The guide insulator 130 is inserted between the extension walls 113 of the frame 110 so that the guide insulator 130 is positioned above the cut insulator 120.

At this time, both ends of the cover 132 of the guide heat insulating member 130 come in close contact with the upper end side surfaces of the extending wall 113 to cover the openings between the extending walls 113. The cover 132 of the guide heat insulating member 130 The support rib 133 radially opened at the lower end is brought into close contact with the inner surface of the lower end of the extension wall 113 while another support rib 133 is brought into close contact with the cut insulation material 120 to support the cover 132 do.

The guide cover 140 is inserted between the extension walls 113 of the frame 110 exposed outdoors out of the frame 110 so that the guide insulator 130 and the guide cover 140 can be separated from each other, And the second guide rails 131 and 141 are connected to each other at the same height.

At this time, the guide cover 140 covers the upper end of the extension wall 113, which is exposed outdoors out of the frame 110 and forms the rainwater guide hole 113a.

Thereafter, at least two floor rails 100 assembled as described above are arranged in parallel, and the window 200 is arranged so as to be staggered above the guide thermal insulation 130 of the floor railing 100 arranged in parallel Thereby forming a sliding door or sliding window of a double structure.

The roller unit 240 installed below the window 200 pushes any one of the windows 200 to guide the first and second guide rails 131 and 131 of the guide insulator 130, And is moved along the rail 141 to communicate the room and the inside / outside space.

The roller unit 240 of the window 200 is moved along the first guide guide rail 131 to seal the indoor space as the window 200 is pulled.

On the other hand, when the window 200 installed on the outdoor side is pulled, the roller portion 240 of the window 200 is moved along the first guide guide rail 131 to seal the indoor space, The roller portion 240 of the window 200 is moved along the second guide guide rail 141 of the guide cover 140 to open the interior space.

In the case of the summer season, outdoor heat transmitted through the frame 110 is blocked by the blocking insulating material 120, and cold air in the room is blocked by the blocking insulating material 120, Thereby preventing discharge or outdoor heat from entering the room.

That is, the outdoor heat transmitted through the frame 110 remains in the space 121a located on the outdoor side with respect to the partition 121, The heat and cool air transferred to the frame 110 can be transferred to the partition 121 by the cool air and heat remaining in the space 121a adjacent to the partition 121, So that it is blocked from flowing into or out of the yarn, inside or outside.

The upward movement of the yarn moving inside the extension wall 113 is prevented by the cover 132 from reaching the roller 242 of the roller unit 240, The heat is left in the outdoor space on the basis of the beam 133 and the cool air is left in the space on the indoor side so that the heat and cool air remaining in the spaces adjacent to each other and the heat, Is prevented from being discharged outdoors or from entering the room.

9, the filling insulator 134 is further inserted into the space between the support ribs 133 of the guide insulator 130 to fill the space between the support ribs 133, , The entrance of cold air or heat into the space adjacent to each other is blocked, and the heat and cool air inside and outside the room are released to the outside or blocked from entering the room.

On the other hand, in the winter season, since the outdoor side cooler is transmitted through the frame 110 and the indoor side heat is transmitted through the frame 110, the flow of the cold air and the heat is the same as above, Omit it.

5 to 6, rainwater accumulates between the bottom rails 100 arranged at least two times, and the rainwater is accumulated in the rainwater guide hole 113a formed in the extending wall 113, And then guided to the space between the extending walls 113 through the rainwater guide hole 113a of another extending wall 113. [

At this time, the upper end of the extension wall 113 formed with the rainwater guide hole 113a is closed by the guide cover 141, and a space is formed therein.

In the following, the structure of the window 200 will be mainly described.

Referring to FIG. 7, a glass plate 210 having a predetermined size is provided, and the glass 210 is coupled between a pair of glass frame frames 220 formed to face each other.

At this time, the glass 210 is introduced through a side portion of one of the pair of glass frame 220 to fix the glass 210 between the glass frame 220 The front and rear rims and side portions of the glass 210 are protected by the glass frame 220.

The engaging recesses 232 of the pair of connecting heat insulating materials 230 are fitted and fixed to the engaging grooves 221 of the glass frame 220 so that the glass frame frames 220 are connected to each other .

In this case, the engaging recesses 232 having an inverted trapezoidal shape are engaged with the engaging grooves 221 of the inverted trapezoidal shape to prevent the connection thermal insulator 230 from being separated from the glass frame frames 220.

Thereafter, the inner edge between the glass frame frames 220 and the joint heat insulating material 230 are covered with the cover insulating material 250, and the longitudinal direction of the cover insulating material 250 provided on the bottom surface of the double glass frame 220 is A plurality of roller units 240 are fixedly installed.

At this time, the fastening member B vertically penetrates through the roller fixing portion 241 of the roller portion 240 so that the fastening member B passes through the cover heat insulating member 250 and the connection heat insulating member 230, And is inserted between the support walls 231 of the base plate 230.

The window 200 formed as described above is installed on the floor rail part 100 provided at the opened part of the building and the window 200 is opened and closed so that the roller 242 of the roller part 240 is moved to the side of the guide insulator 130 And is rotationally driven along the first guide guide rail 131 and the second guide guide rail 141 to move the window 200 horizontally.

Meanwhile, in the case of the window 200, the window frame 220 located at the indoor side receives outdoor heat, and the glass frame 220 positioned at the indoor side receives cold air from the indoor , The cold air or the heat transferred to the respective glass frame frames 220 is blocked by the joint thermal insulator 230 to block the inflow or outflow of the yarn into or out of the room.

That is, the heat transferred to the glass frame 220 remains in the space portion 231a in the outdoor side direction with respect to the support wall 231 of the connection heat insulating member 230, Side air space 231a so that the indoor or outdoor heat or cold air is discharged outdoors by the cold air or the heat and the support wall 231 remaining in the neighboring spaces 231a Or is blocked from entering the room.

The cool air or heat flowing through the space between the glass frame frames 220 is sequentially blocked by the cover thermal insulating material 250 and the connection thermal insulating material 230 covering the inside between the glass frame frames 220, And is prevented from being transmitted to the inside of the frame 220 or vertically raised and transmitted to the glass 210.

On the other hand, in the winter season, since the outdoor side cooler is transmitted through the glass frame 220 and the indoor heat is transmitted through the glass frame 220, the flow of the cold air and the heat is the same as described above A detailed description thereof will be omitted.

In the following, the construction of the extension insulator 300 will be mainly described.

8, a cover finishing material 330 and an extended thermal insulating material 300 are sandwiched between the side surfaces of the window 210 to close the side surface of the window 200. As shown in FIG.

At this time, the cover finishing material 330 and the extended heat insulating material 300 are installed at the same height to close the side surface of the window 200.

Particularly, the glass frame 220 installed in a direction between the windows 200 supports the extended heat insulating material 300 to be in close contact with one side surface of the glass frame 220 with the outer frame 223, The fastening member B passing through the extended heat insulating material 300 is fastened through the side surface of the glass frame 220 so that the extended heat insulating material 300 is tightly fixed to one side surface of the window 200.

The window frame 220 installed between the windows 200 is connected to the window frame 222 by the window insulating material 224 so that the front or rear edge of the glass 210, And protects the side edges by wrapping them.

Thereafter, the pressing member 310 is inserted into the end of the extended heat insulating material 300, and the gasket 320 is fixed to one side of the extended heat insulating material 300 facing the window 200.

The window 200 is slidably engaged with the first guide guide rail 131 and the second guide guide rail 141 of the floor rail part 100 installed along the opened rim of the building so that the sliding door Window is formed.

At this time, either one of the windows 200 coupled to the first guide guide rail 131 is slidingly moved or a pair of the windows 200 is moved at the same time, Is horizontally moved on the first guide guide rail 131 or the second guide guide rail 141 so that the seal is communicated inside or outside, or the room is sealed.

When the window 200 is pushed or pulled to seal the indoor space, the gasket 320 is rubbed against the window 200 to maintain a gap between the extended insulation 300 and the window 200 , The interference between the extension insulator (300) and the window (200) is prevented.

The extension of the window 200 may cause the extension insulator 300 to approach the other extension insulator 300 and the distal end of the extension insulator 300 may be pressed against the push member 310, At the same time, the moving force of the window 200 is reduced by the elastic force of the pressing member 310, so that the window 200 is prevented from colliding with the frame 110 installed in the vertical direction.

When the indoor space is sealed with the window 200 as described above, in the summer, the outdoor heat is blocked by the window 200 to block the inflow into the room, and the cold air in the room is blocked by the window 200 And is blocked from being discharged outdoors.

That is, outdoor heat transferred to the glass frame 220 of the window 200 is blocked by the extended heat insulating material 300 and is prevented from entering the space between the side of the window 200 and the window 200 The cold air in the room transferred to the glass frame 220 of the window 200 is blocked by the extended heat insulating material 300 and is prevented from entering the space between the side of the window 200 and the window 200. [ The outdoor heat is prevented from flowing into the room, or the cold air in the room is prevented from being discharged to the outside.

If a small amount of hot or cold air inside or outside the room, which is primarily blocked by the extended insulation 300, is introduced or discharged beyond the extended insulation 300, It is prevented from being transmitted to the inner frame 222 after being moved along the outer frame 223 and intercepted by the heat insulator 224.

That is, the heat or cold air inside or outside the room is firstly blocked by the extended heat insulating material 300, and the cold air or heat that goes over the heat insulating material is secondarily blocked by the window insulating material 224, Or outdoor heat is blocked from entering the room.

On the other hand, in the case of the winter season, outdoor cold air is blocked by the window 200 to block the entrance of the indoor air into the room, and the indoor heat is blocked by the window 200, And the detailed description thereof will be omitted.

The structure in which the floor railing 100, the window 200 and the extension heat insulating material 300 having the heat insulating performance are installed to block the inflow or outflow of heat or cold air into or out of the room, And the guide insulator 130 block the flow of the cold or hot air flowing into the frame 110 to prevent the cool air or the heat from being introduced into or discharged from the room, There is no flow of cold air or heat between the first guide guide rail 131 and the rollers 242 of the roller unit 240 that are in contact with each other to prevent the window 200 from being stuck or frosty, In addition, the cold air or the heat is blocked by the connection heat insulating member 230 to prevent the inflow or outflow of the yarn into or out of the yarn, and the movement of the glass frame frame (not shown) surrounding the glass 210 by driving the roller 242 of the roller unit 240 220) freely slides The cold air or the heat transferred to the roller unit 240 moved on the first guide guide rail 131 is blocked by the connection heat insulating member 230 and the side surface of the window 200 is connected to the extended heat insulating member 300, And the gasket 320 installed in the extended thermal insulating material 300 closes the space between the windows 200. As a result, the gasket 320 is prevented from entering or exiting the room through the window 200, So that dust or foreign matter is prevented from penetrating into the space between the windows 200. The pressing member 310 provided at the end of the extended heat insulating material 300 restricts the depth of entry of the extended heat insulating material 300, The window 200 is prevented from colliding with the frame 110 installed in the vertical direction.

The present invention is not limited to the above-described embodiments, but may be modified in various ways within the spirit and scope of the present invention as set forth in the appended claims. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

100: bottom rail part 110: frame
111: latching groove 113: extended wall
113a: rainwater guide 120: cut insulation
121: partition wall 121a:
122: stumbling block 130: guide insulator
131: first guide rail 132: cover
133: Support beam 134: Charge insulation
140: guide cover 141: second guide rail
200: window 210: glass
220: glass frame frame 221:
222: frame frame 223: frame frame
224: Window insulation material 230: Connection insulation material
231: Supporting wall 231a:
232: stumbling block 240: roller part
241: roller fixing portion 242: roller
250: Cover insulation 300: Extension insulation
310: pressing member 320: gasket
330: cover finish material B: fastening member

Claims (13)

A pair of frames 110 each having an extending wall 113 extending upward on a side facing each other and having a rainwater guide hole 113a formed on a side surface of the extending wall 113, (120) installed at the upper end of the extension wall (113) and blocking a cool air or heat inside or outside the room from flowing into the room or out of the room through the frame (110) A cover 132 for closing the upper end of the extension wall 113 is formed in tight contact with the cover 132 and a support rib 133 for supporting a load applied to the cover 132 is formed below the cover 132, A guide insulator 130 formed integrally with the first guide guide rail 131 and a predetermined length of aluminum material and connected to the guide insulator 130 to form the rainwater guide hole 113a, (113), and the upper surface A bottom rail part (100) including a guide cover (140) having a second guide rail (141) at the height of the inner guide rail (131) and arranged at least two in parallel with each other;
A glass frame 220 which is formed by a pair of glass plates 210 facing each other and which covers the front and rear edges and side edges of the glass 210 to protect the side surface of the glass 210; A connection heat insulation member 230 installed between the glass frame members 220 to block the inflow of cold air or heat into the glass 210 through the space between the glass frame members 220, The plurality of guide ribs 131 are formed along the longitudinal direction of the connection heat insulating member 230 provided on the bottom surface of the glass frame 220 and are rotationally driven along the first guide rail 131 and the second guide rail 141 A window 200 including the roller unit 240 and slidingly moved to be interlaced with each other; And
An extension insulating material 300 fixed to one side of the window 200 opposite to each other to block cold air or heat inside and outside the room from flowing into the room or outside through the side of the window 200;
And a heat insulating layer formed on the insulating layer. The method according to claim 1,
The blocking insulating material 120 of the bottom rail part 100 is formed,
Wherein a plurality of partition walls (121) are formed between the frame (110) so as to be separable upwardly and downwardly, and between which a flow of cold air or heat is blocked. The method according to claim 1,
The blocking insulating material 120 of the bottom rail part 100 is formed,
Is formed in a solid shape so as to fill the space between the frames (110). 4. The method according to any one of claims 1 to 3,
Engagement grooves 111 are formed on the opposite side surfaces of the frame 110,
Wherein the blocking insulating material (120) is formed at both ends thereof with a locking protrusion (122) which is engaged with the locking recess (111) and is engaged. The method according to claim 1,
The retaining beam 133 of the guide insulator 130 is formed in a shape
Wherein the cover (132) is formed of at least three pieces so as to support the load applied to the cover (132) in a radial manner. 6. The method according to claim 1 or 5,
The guide insulator (130)
And the filling insulator (134) is further sprinkled in the space between the holding ribs (133). The method according to claim 1,
The connection heat insulating material 230 of the window 200 may be formed,
And a support wall (231) for supporting the outer surface of the fastening member (B) vertically penetrating therebetween is protruded and formed so as to be separated from each other. 8. The method of claim 1 or 7,
The window (200)
The side surfaces of the glass frame 220 facing each other are formed with engaging grooves 221 recessed in an inverted trapezoidal shape,
Wherein the connection insulator (230) is formed on both side surfaces thereof with an inverted trapezoidal locking protrusion (232) which is engaged with the locking recess (221). The method according to claim 1,
The roller unit 240 includes:
A roller fixing portion 241 provided below the connection heat insulating member 230 and fixed by a fastening member B; And
A roller 242 rotatably installed inside the roller fixing portion 241 and rotated;
And a heat insulating layer formed on the insulating layer. The method according to claim 1,
Between the glass frame 220 of the window 200,
And a cover insulating material 250 is further provided to cover the inner frame of the glass frame 220 to block the transmission of cold air or heat to the glass frame 220 and the connection thermal insulating material 230 Triple insulation structure. The method according to claim 1,
The glass frame 220 provided on both sides of the glass frame 220 of the window 200 and facing each other in the direction between the windows 200,
A frame (222) covering a front or rear edge and a side edge of the glass (210);
A frame 223 spaced apart from the frame 22 by a predetermined distance in the outer direction of the frame 223; And
A window insulator 224 installed between the inner and outer frames 222 and 223 to connect the inner and outer frames 222 and 223;
And a heat insulating layer formed on the insulating layer. The method according to claim 1,
The extended insulation material (300)
And a pressing member (310) which is formed so as to be bent in a direction in which the ends thereof are opposed to each other and which prevents the extension heat insulating material (300) from entering the depth more than a predetermined depth in the direction in which the mutually opposite facing members Insulation structure. The method according to claim 1,
The extended insulation material (300)
Wherein a gasket (320) is provided on one surface of the window (200) facing each other to prevent the window (200) from rubbing against the extended insulation (300).

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