CN215108340U - Hollow energy-saving inward-opening inward-falling type heat insulation window - Google Patents

Abstract

The hollow energy-saving inward-opening inward-falling heat insulation window comprises an upper frame, wherein the upper frame comprises an upper frame left template, an upper frame right template and an upper frame sealing element; the bottom end of the upper frame is connected with the upper hollow glass, and the bottom end of the upper hollow glass is connected with the mullion; the mullion comprises a right mullion template and a left mullion template; an upper window sash is arranged at the bottom end of the mullion, and a first connecting strip is arranged at the joint of the mullion and the upper window sash; the bottom end of the upper window sash is connected with lower hollow glass, and the bottom end of the lower hollow glass is connected with a lower window sash; the bottom end of the lower window sash is connected with a lower frame, and a second connecting strip is arranged at the joint of the lower frame and the lower window sash. The utility model discloses a mode that thermal-insulated window adopted sealing member and connecting strip is thermal-insulated to aluminium alloy is inside, improves the leakproofness of window simultaneously, and the inside stair structure that adopts of the right section bar of club and lower casement in addition, the cooperation hole of leaking can increase the inside function of leaking, avoids ponding in the aluminium alloy.

Description

Hollow energy-saving inward-opening inward-falling type heat insulation window

Technical Field

The utility model belongs to the technical field of the building curtain, in particular to thermal-insulated window of formula of falling in energy-conserving interior division of cavity.

Background

The aluminum alloy window is a window with a frame and sash structure made of aluminum alloy building profiles, and is divided into a common aluminum alloy door window and a broken bridge aluminum alloy door window. The aluminum alloy window has the advantages of attractive appearance, sealing and high strength, is widely applied to the field of constructional engineering, and is commonly used for packaging balconies in home decoration; the surface of the aluminum alloy is oxidized, smooth and shiny. The window sash frame is large, glass with a large area can be embedded, indoor light is sufficient and bright, the virtual-real contrast of vertical surfaces between the indoor space and the outdoor space is enhanced, and a room is rich in layers. The aluminum alloy is easy to extrude, the cross section of the section bar is accurate in size, and the processing accuracy is high, so that aluminum alloy doors and windows are selected by many owners in decoration.

When the existing aluminum alloy window is used, gaps exist among window sashes, so that the heat insulation effect is poor when the window sash is used, and particularly when an indoor air conditioner is opened, the aluminum window with poor sealing performance easily causes heat dissipation, so that the energy consumption is increased.

SUMMERY OF THE UTILITY MODEL

The utility model discloses not enough to prior art exists, provide the heat-insulating window of formula of falling in the cavity is energy-conserving, concrete technical scheme is as follows:

the hollow energy-saving inward-opening inward-falling heat insulation window comprises an upper frame, wherein the upper frame comprises an upper frame left template and an upper frame right template, and an upper frame sealing piece is arranged between the upper frame left template and the upper frame right template;

the bottom end of the upper frame is connected with the upper hollow glass, and the bottom end of the upper hollow glass is connected with the mullion; the muntin comprises a muntin right template and a muntin left template, and a muntin sealing element is arranged between the muntin right template and the muntin left template;

an upper window sash is arranged at the bottom end of the mullion, and a first connecting strip is arranged at the joint of the mullion and the upper window sash; the upper window sash comprises an upper window sash left template and an upper window sash right template, and an upper window sash sealing element is arranged between the upper window sash left template and the upper window sash right template;

the bottom end of the upper window sash is connected with lower hollow glass, and the bottom end of the lower hollow glass is connected with a lower window sash; the lower window sash comprises a lower window sash left template and a lower window sash right template, and the lower window sash left template is connected with the lower window sash right template through a lower window sash sealing element; the bottom end of the lower window sash is connected with a lower frame, and a second connecting strip is arranged at the joint of the lower frame and the lower window sash;

the lower frame comprises a lower frame left template and a lower frame right template, and a lower frame sealing element is arranged between the lower frame left template and the lower frame right template.

Further, the upper frame sealing element, the mullion sealing element, the upper sash sealing element, the lower sash sealing element and the lower frame sealing element have the same structure; the upper sash seal comprises a first insulating strip, insulating cotton, and a second insulating strip; the first heat insulation strip and the second heat insulation strip are clamped between the upper sash left template and the upper sash right template; and the first heat insulation strip and the second heat insulation strip are filled with heat insulation cotton.

Furthermore, the first heat insulation strip adopts a structure with the top end protruding upwards, and the first heat insulation strip and the second heat insulation strip are arranged in parallel.

Furthermore, first reinforcing plates are fixed inside the upper frame left template, the mullion left template, the upper sash left template and the lower sash left template; and second reinforcing plates are fixed on the inner sides of the upper frame right template, the mullion right template, the upper sash right template and the lower sash right template.

Furthermore, first gusset plate adopts fork structure, the second gusset plate adopts platelike structure, just the second gusset plate is hugged closely the inner wall of well club right side template.

Furthermore, the inside of well club right side template the inside of casement right side template forms the ladder down, just well club right side template the lateral part of casement right side template all sets up the hole that leaks.

The utility model has the advantages that: the utility model discloses a mode that thermal-insulated window adopted sealing member and connecting strip is thermal-insulated to aluminium alloy is inside, improves the leakproofness of window simultaneously, and the inside stair structure that adopts of the right section bar of club and lower casement in addition, the cooperation hole of leaking can increase the inside function of leaking, avoids ponding in the aluminium alloy.

Drawings

Fig. 1 shows a schematic structural view of the hollow energy-saving inward-opening and inward-falling heat insulation window of the present invention;

fig. 2 shows a schematic view of a connection structure of a mullion and an upper sash of the present invention;

shown in the figure: 1. the upper frame, 11, upper frame sealing element, 12, upper frame left template, 13, upper frame right template, 2, upper hollow glass, 3, middle stile, 31, middle stile sealing element, 32, middle stile right template, 321, water leakage hole, 322, ladder, 33, middle stile left template, 331, first reinforcing plate, 34, second reinforcing plate, 4, first connecting strip, 5, upper window sash, 51, upper window sash sealing element, 511, first heat insulation strip, 512, heat insulation cotton, 513, second heat insulation strip, 52, upper window sash left template, 53, upper window sash right template, 6, lower hollow glass, 7, lower window sash, 71, lower window sash sealing element, 72, lower window sash left template, 73, lower window sash right template, 8, second connecting strip, 9, lower frame, 91, lower frame sealing element, 92, lower frame left template, 93, lower frame right.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The hollow energy-saving inward-opening inward-falling heat insulation window comprises an upper frame 1, wherein the upper frame 1 comprises an upper frame left template 12 and an upper frame right template 13, and an upper frame sealing element 11 is arranged between the upper frame left template 12 and the upper frame right template 13;

the bottom end of the upper frame 1 is connected with an upper hollow glass 2, and the bottom end of the upper hollow glass 2 is connected with a mullion 3; the mullion 3 comprises a mullion right template 32 and a mullion left template 33, and a mullion sealing element 31 is arranged between the mullion right template 32 and the mullion left template 33;

an upper window sash 5 is arranged at the bottom end of the mullion 3, and a first connecting strip 4 is arranged at the joint of the mullion 3 and the upper window sash 5;

the upper window sash 5 comprises an upper window sash left template 52 and an upper window sash right template 53, and an upper window sash sealing member 51 is arranged between the upper window sash left template 52 and the upper window sash right template 53;

the bottom end of the upper window sash 5 is connected with lower hollow glass 6, and the bottom end of the lower hollow glass 6 is connected with a lower window sash 7; the lower window sash 7 comprises a lower window sash left template 72 and a lower window sash right template 73, and the lower window sash left template 72 and the lower window sash right template 73 are connected through a lower window sash sealing piece 71;

the bottom end of the lower window sash 7 is connected with a lower frame 9, and a second connecting strip 8 is arranged at the joint of the lower frame 9 and the lower window sash 7; lower frame 9 includes lower frame left side template 92 and lower frame right side template 93, just be equipped with lower frame sealing member 91 between lower frame left side template 92 and the lower frame right side template 93, adopt the mode of sealing member and connecting strip to insulate against heat to aluminium alloy inside, improve the leakproofness of window simultaneously.

As an improvement of the above technical solution, the upper bezel sealing element 11, the mullion sealing element 31, the upper sash sealing element 51, the lower sash sealing element 71, and the lower bezel sealing element 91 have the same structure; the upper sash seal 51 includes a first heat insulating strip 511, a heat insulating cotton 512, and a second heat insulating strip 513; the first heat insulation strip 511 and the second heat insulation strip 513 are both clamped between the upper sash left template 52 and the upper sash right template 53; the first heat insulation strips 511 and the second heat insulation strips 513 are filled with heat insulation cotton 512, so that the heat insulation effect is enhanced.

As an improvement of the above technical solution, the first heat insulating strips 511 adopt a structure in which the top end protrudes upwards, and the first heat insulating strips 511 and the second heat insulating strips 513 are arranged in parallel.

As an improvement of the above technical solution, a first reinforcing plate 331 is fixed inside each of the upper frame left template 12, the mullion left template 33, the upper sash left template 52 and the lower sash left template 72; and the inner sides of the upper frame right template 13, the mullion right template 32, the upper sash right template 53 and the lower sash right template 73 are respectively fixed with a second reinforcing plate 34, so that the strength of the window frame is enhanced, and the phenomenon of unsmooth sliding of glass caused by deformation is avoided.

As a modification of the above technical solution, the first reinforcing plate 331 is of a fork-shaped structure, the second reinforcing plate 34 is of a plate-shaped structure, and the second reinforcing plate 34 is tightly attached to the inner wall of the right mullion forming plate 32.

As the improvement of above-mentioned technical scheme, well club right side template 32 the inside of lower casement right side template 73 forms the ladder, just well club right side template 32 the lateral part of casement right side template 73 all sets up the hole 321 that leaks, strengthens the offal of aluminium alloy, avoids appearing ponding.

Fig. 1 shows a schematic view of the overall structure of an embodiment of the present invention, exemplarily, as shown in fig. 1, the present invention includes an upper frame 1, a mullion 3, an upper sash 5, a lower sash 7, and a lower frame 9, and the upper frame 1, the mullion 3, the upper sash 5, the lower sash 7, and the lower frame 9 adopt aluminum profile structures; the upper frame 1 comprises an upper frame sealing part 11, an upper frame left template 12 and an upper frame right template 13, the upper frame left template 12 and the upper frame right template 13 are connected through the upper frame sealing part 11, and reinforcing plates are arranged inside the upper frame left template 12 and the upper frame right template 13; the reinforcing plate is used for reinforcing the strength of the aluminum profiles on the two sides of the glass, so that the problem that the glass slides unsmoothly due to deformation of the aluminum profiles is avoided;

the bottom end of the upper frame 1 is connected with a mullion 3 through upper hollow glass 2; the mullion 3 comprises a mullion sealing element 31, a mullion right template 32, a mullion left template 33 and a second reinforcing plate 34; as shown in fig. 2, a mullion sealing member 31 is arranged between the mullion right template 32 and the mullion left template 33, a first reinforcing plate 331 is arranged inside the mullion left template 33, and a second reinforcing plate 34 is arranged on the inner wall of the mullion right template 32; the first reinforcing plate 331 and the second reinforcing plate 34 are used for reinforcing the strength of aluminum profiles on two sides of the glass, so that the glass is prevented from sliding unsmoothly due to deformation of the aluminum profiles; a step 322 is formed inside the right mullion template 32, and water leakage holes 321 are formed inside the right mullion template 32, so that the water leakage effect of the aluminum profile is enhanced;

the bottom end of the mullion 3 is connected with an upper window sash 5, and a first connecting strip 4 is arranged at the joint of the mullion 3 and the upper window sash 5; the first connecting strip 4 is clamped with the upper window sash 5, the upper window sash 5 comprises an upper window sash left template 52 and an upper window sash right template 53, and an upper window sash sealing member 51 is arranged between the upper window sash left template 52 and the upper window sash right template 53; the upper sash seal 51 includes a first heat insulating strip 511, a heat insulating cotton 512, and a second heat insulating strip 513; the first heat insulation strip 511 and the second heat insulation strip 513 are both clamped between the upper sash left template 52 and the upper sash right template 53; the first heat insulation strips 511 and the second heat insulation strips 513 are filled with heat insulation cotton 512; reinforcing plates are arranged inside the upper window sash left shaping plate 52 and the upper window sash right shaping plate 53; the reinforcing plate is used for reinforcing the strength of the aluminum profiles on the two sides of the glass, so that the problem that the glass slides unsmoothly due to deformation of the aluminum profiles is avoided;

the bottom end of the upper window sash 5 is connected with lower hollow glass 6, and the bottom end of the lower hollow glass 6 is connected with a lower window sash 7; the lower window sash 7 comprises a lower window sash left template 72 and a lower window sash right template 73, and the lower window sash left template 72 and the lower window sash right template 73 are connected through a lower window sash sealing piece 71; reinforcing plates are arranged in the lower window sash left shaping plate 72 and the lower window sash right shaping plate 73; the reinforcing plate is used for reinforcing the strength of the aluminum profiles on the two sides of the glass, so that the problem that the glass slides unsmoothly due to deformation of the aluminum profiles is avoided; the bottom end of the lower window sash 7 is connected with a lower frame 9, and a second connecting strip 8 is arranged at the joint of the lower frame 9 and the lower window sash 7;

the lower frame 9 comprises a lower frame left template 92 and a lower frame right template 93, and a lower frame sealing part 91 is arranged between the lower frame left template 92 and the lower frame right template 93; the first sealing strip 4, the second sealing strip 8, the first heat insulation strip 511 and the second heat insulation strip 513 are made of nylon materials containing glass fibers.

The utility model discloses a mode that thermal-insulated window adopted sealing member and connecting strip is thermal-insulated to aluminium alloy is inside, improves the leakproofness of window simultaneously, and the inside stair structure that adopts of the right section bar of club and lower casement in addition, the cooperation hole of leaking can increase the inside function of leaking, avoids ponding in the aluminium alloy.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. Hollow energy-saving inward-opening inward-falling type heat insulation window, which is characterized in that: the upper frame comprises an upper frame (1), wherein the upper frame (1) comprises an upper frame left template (12) and an upper frame right template (13), and an upper frame sealing part (11) is arranged between the upper frame left template (12) and the upper frame right template (13);

the bottom end of the upper frame (1) is connected with the upper hollow glass (2), and the bottom end of the upper hollow glass (2) is connected with the mullion (3); the muntin (3) comprises a muntin right template (32) and a muntin left template (33), and a muntin sealing element (31) is arranged between the muntin right template (32) and the muntin left template (33);

an upper window sash (5) is arranged at the bottom end of the mullion (3), and a first connecting strip (4) is arranged at the joint of the mullion (3) and the upper window sash (5); the upper window sash (5) comprises an upper window sash left template (52) and an upper window sash right template (53), and an upper window sash sealing piece (51) is arranged between the upper window sash left template (52) and the upper window sash right template (53);

the bottom end of the upper window sash (5) is connected with lower hollow glass (6), and the bottom end of the lower hollow glass (6) is connected with a lower window sash (7); the lower window sash (7) comprises a lower window sash left shaping plate (72) and a lower window sash right shaping plate (73), and the lower window sash left shaping plate (72) is connected with the lower window sash right shaping plate (73) through a lower window sash sealing piece (71);

the bottom end of the lower window sash (7) is connected with a lower frame (9), and a second connecting strip (8) is arranged at the joint of the lower frame (9) and the lower window sash (7); the lower frame (9) comprises a lower frame left template (92) and a lower frame right template (93), and a lower frame sealing element (91) is arranged between the lower frame left template (92) and the lower frame right template (93).

2. The hollow energy-saving inward-opening inward-falling heat insulation window according to claim 1, characterized in that: the upper frame sealing element (11), the mullion sealing element (31), the upper window sash sealing element (51), the lower window sash sealing element (71) and the lower frame sealing element (91) are identical in structure; the upper sash seal (51) comprises a first insulating strip (511), an insulating cotton (512) and a second insulating strip (513); the first heat insulation strip (511) and the second heat insulation strip (513) are clamped between the upper window sash left template (52) and the upper window sash right template (53); the space between the first heat insulation strip (511) and the second heat insulation strip (513) is filled with heat insulation cotton (512).

3. The hollow energy-saving inward-opening inward-falling heat insulation window according to claim 2, characterized in that: the first heat insulation strips (511) are of a structure with the top end protruding upwards, and the first heat insulation strips (511) and the second heat insulation strips (513) are arranged in parallel.

4. The hollow energy-saving inward-opening inward-falling heat insulation window according to claim 1, characterized in that: a first reinforcing plate (331) is fixed inside each of the upper frame left template (12), the mullion left template (33), the upper sash left template (52) and the lower sash left template (72); and second reinforcing plates (34) are fixed on the inner sides of the upper frame right template (13), the mullion right template (32), the upper sash right template (53) and the lower sash right template (73).

5. The hollow energy-saving inward-opening and inward-falling heat insulation window according to claim 4, characterized in that: the first reinforcing plate (331) adopts a fork-shaped structure, the second reinforcing plate (34) adopts a plate-shaped structure, and the second reinforcing plate (34) is tightly attached to the inner wall of the right mullion template (32).

6. The hollow energy-saving inward-opening inward-falling heat insulation window according to claim 1, characterized in that: and the inner parts of the mullion right template (32) and the lower sash right template (73) form steps, and water leakage holes (321) are formed in the side parts of the mullion right template (32) and the lower sash right template (73).

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