CN218234833U - Aluminum alloy outward-opening window - Google Patents

Abstract

The utility model relates to an aluminum alloy swinging-out casement window, including the window frame, the casement and install the cavity glass on the casement, the upper end of casement is rotated and is installed in the window frame upper end, the window frame includes first window frame, second window frame and integrative first mounting panel that sets up on first window frame, first mounting panel is located first window frame towards indoor one side, the casement includes first casement, the second casement and install the second mounting panel at second casement lower extreme, the second mounting panel is located the outdoor one side of second casement orientation, be provided with the first buffering subassembly that is used for slowing down striking dynamics between first casement and the first mounting panel on the first mounting panel, be provided with the second buffering subassembly that is used for slowing down striking dynamics between second mounting panel and the second window frame on the second mounting panel. The first buffer assembly and the second buffer assembly are arranged between the window sash and the window frame, so that the possibility of damage to the hollow glass in the case of impact is reduced.

Description

Aluminum alloy outward-opening window

Technical Field

The application relates to the technical field of aluminum alloy windows, in particular to an aluminum alloy outward-opening window.

Background

The window is an important component of a house structure, and along with the continuous improvement of living standard, the requirements of people on the window are also continuously improved, and the window gradually changes into sound insulation and heat insulation from the light transmission and wind shielding at the beginning, and even has multiple functional requirements of convenience in pushing and pulling and the like.

Referring to fig. 1, a conventional out-opening window includes a window frame 1, a window sash 2 and a hollow glass 3 installed on the window sash 2, an upper end of the window sash 2 is rotatably installed on the window frame 1, the window frame 1 includes a first window frame 11, a second window frame 12 and a first installation plate 13 integrally disposed on the first window frame 11, the first window frame 11 and the second window frame 12 are distributed in an indoor direction facing outdoors, the window sash 2 includes a first window sash 22, a second window sash 23 and a second installation plate 21 installed at a lower end of the second window sash 23, the first window sash 22 and the second window sash 23 are distributed in an indoor direction facing outdoors, when the out-opening window needs to be closed, the window sash 2 and the hollow glass 3 are artificially rotated outdoors along the window frame 1, so that a side surface of the first installation plate 13 facing outdoors is attached to a side surface of the second window sash 23 facing indoors, and a side surface of the second installation plate 21 facing indoors is attached to a side surface of the second window frame 12 facing outdoors, thereby closing the out-opening window.

When the outward opening window is manually closed, the window sashes 2 rotate downwards, one side surface of the first window sash 22 facing the indoor is impacted on one side surface of the first mounting plate 13 facing away from the indoor, one side surface of the second mounting plate 21 facing the indoor is impacted on one side surface of the second window frame 12 facing the outdoor, and the hollow glass 3 is easily damaged in the impact condition.

SUMMERY OF THE UTILITY MODEL

In order to reduce the possibility that the hollow glass is damaged under the impact, the application provides an aluminum alloy outward-opening window.

The application provides an aluminum alloy swinging-out casement window adopts following technical scheme:

the utility model provides an aluminum alloy swinging-out casement window, includes window frame, casement and installs the cavity glass on the casement, and the upper end of casement is rotated and is installed in the window frame upper end, the window frame includes first window frame, second window frame and integrative first mounting panel that sets up on first window frame, first window frame and second window frame distribute along indoor outdoor direction of orientation, first mounting panel is located first window frame and moves towards indoor one side, the casement includes first casement, second casement and installs the second mounting panel at second casement lower extreme, first casement and second casement move along indoor outdoor direction of orientation and distribute, the second mounting panel is located second casement and moves towards outdoor one side, be provided with the first buffering subassembly that is used for slowing down striking dynamics between first casement and the first mounting panel on the first mounting panel, be provided with the second buffering subassembly that is used for slowing down striking dynamics between second mounting panel and the second window frame on the second mounting panel.

Through adopting above-mentioned technical scheme, when the window that needs will open is closed, hold up the lower extreme of swinging-out casement window, make the upper end of casement rotate along the inboard of window frame upper end, thereby close the window, when the lower extreme of casement descends to the lower extreme of window frame, first casement is towards indoor side surface and on the first buffering subassembly of striking on first mounting panel, the second mounting panel is towards the indoor second buffering subassembly striking of side surface on the second window frame towards outdoor side surface, first buffering subassembly reduces the striking dynamics of first window frame and first mounting panel, the second buffering subassembly reduces the striking dynamics between second mounting panel and the second window frame, thereby reduce the possibility that cavity glass damaged under the effect of striking.

Optionally, the first buffer assembly comprises a buffer strip, the buffer strip comprises a vertical portion and an inclined portion, the vertical portion is arranged on one side surface, facing the outdoor, of the first mounting plate, one end of the inclined portion and the upper end of the vertical portion are integrally arranged, and the other end of the inclined portion extends downwards in an inclined mode in the direction facing the outdoor.

Through adopting above-mentioned technical scheme, the casement is at the decline in-process, and first casement is towards indoor side surface earlier with the rake contact of buffering strip to at the continuous in-process of downwards rotation of casement, first casement constantly extrudees the rake, makes the rake constantly be close to vertical portion, thereby slows down the striking between indoor side surface of first casement orientation and the first mounting panel.

Optionally, the first buffer assembly further comprises a connecting block, the connecting block comprises a vertical block and a horizontal block, a first mounting groove which penetrates through two ends of the first mounting plate along the length direction of the window frame is formed in the first mounting plate, a second mounting groove is formed in the surface of one side of the first mounting plate, which faces away from the indoor space, the first mounting groove is communicated with the second mounting groove, the width of the second mounting groove is smaller than that of the first mounting groove, the vertical block is arranged in the first mounting groove, the horizontal block is integrally arranged on the vertical block and located in the second mounting groove, and the surface of the horizontal block, which faces away from the vertical block, is integrally connected with the vertical part.

Through adopting above-mentioned technical scheme, vertical piece is installed in first mounting groove, and the horizontal block is installed in the second mounting groove to fixed mounting is in the same place between vertical piece and the horizontal block, and the vertical portion of buffering strip is installed on the horizontal block, and when closing the casement, the rake extrusion is in vertical portion, and vertical portion extrusion is on the horizontal block, thereby increases buffering subassembly's cushioning effect.

Optionally, the opposite surfaces of the first window frame and the second window frame are provided with two installation seats, two heat insulation rubber strips distributed along the vertical direction are arranged between the first window frame and the second window frame, one end of each heat insulation rubber strip is arranged on the installation seat on the first window frame, the other end of each heat insulation rubber strip is arranged on the installation seat on the second window frame, and the two ends of each heat insulation rubber strip are connected with the two installation seats in a sealing mode.

Through adopting above-mentioned technical scheme, the swinging-out casement window is when using, and the transmission between window frame and the casement can be passed through to indoor outer difference in temperature, installs thermal-insulated adhesive tape between first window frame and second window frame, reduces the transmission of heat between first window frame and second window frame to improve the thermal-insulated effect between first window frame and the second window frame.

Optionally, the top an organic whole of second casement is provided with the connecting plate, the connecting plate is located cavity glass towards outdoor one side, through sealed glue fixed connection between the top of connecting plate and the outdoor side surface of cavity glass orientation, be provided with first fixed plate and second fixed plate between first casement and the cavity glass, the setting can be dismantled at first casement upper surface and be close to first casement towards indoor side surface in the bottom of first fixed plate, the integrative setting in the top of first fixed plate of one end of second fixed plate, the other end to cavity glass horizontal extension and with through sealed glue connection between the cavity glass.

Through adopting above-mentioned technical scheme, cavity glass is towards through sealed gluey demountable installation between outdoor side surface and the second casement to sealed gluey reduction dust, the possibility in the infiltration second casement of rainwater, cavity glass is towards demountable installation between indoor side surface and the first casement through between first fixed plate and the second fixed plate, when cavity glass or casement need to be changed, the first fixed plate of accessible is dismantled and is changed with the demountable installation of casement.

Optionally, the bottom end of the first fixing plate is provided with an elastic buckle which elastically deforms in the indoor-to-outdoor direction, the upper surface of the first sash is provided with a first clamping block protruding outdoors along the indoor direction, and the elastic buckle is clamped on the first clamping block along the vertical direction.

Through adopting above-mentioned technical scheme, when installing first fixed plate and second fixed plate, will press down the elasticity buckle of first fixed plate lower extreme earlier for elasticity buckle takes place elastic deformation along the indoor orientation in the direction on outdoor side surface, and elasticity buckle and first fixture block joint in vertical direction make can dismantle between first fixed plate and the first casement.

Optionally, an elastic adjusting plate is integrally arranged on the lower surface of the second fixing plate, the adjusting plate extends downwards along the direction of the outdoor direction, the upper surface of the first window sash is provided with a second clamping block protruding towards the indoor direction, the bottom end of the adjusting plate is provided with an elastic clamping hook which elastically deforms in the indoor direction to the outdoor direction, and the elastic clamping hook is clamped on the second clamping block along the vertical direction.

By adopting the technical scheme, the elastic adjusting plate is clamped with the second clamping block on the first window sash, so that the second fixing plate and the first window sash are more stably installed, the direction of elastic deformation between the adjusting plate and the second clamping block is opposite to the direction of elastic deformation between the elastic buckle and the first clamping block, and the possibility of separation between the first fixing plate and the first window sash and the possibility of separation between the second fixing plate and the first window sash during opening and closing of the window sashes are reduced.

Optionally, thereby be provided with between regulating plate and the first fixed plate and be used for to the first fixed plate direction pulling regulating plate make the pulling rod that elasticity trip and second fixture block pine take off, the one end setting of pulling rod is on the regulating plate, and the other end wears to establish on first fixed plate.

Through adopting above-mentioned technical scheme, when needs are dismantled between first fixed plate and the second fixed plate, beat the one end that the pulling rod wore out first fixed plate for the joint between the elasticity trip of the lower extreme of regulating plate and the second fixture block is loosened, thereby reduces the degree of difficulty of dismantling between first fixed plate and the second fixed plate.

Optionally, a cushion block is arranged on the pulling rod, and the cushion block is located on the surface, facing the indoor, of the first fixing plate.

Through adopting above-mentioned technical scheme, install the cushion on the one end that the pulling rod stretches out first fixed plate, reduce the tip of pulling rod and get into the possibility between first fixed plate and the regulating plate.

Optionally, a placing groove is formed in the surface, facing the indoor, of the first fixing plate, the cushion block is located in the placing groove, and fixing glue is filled between the placing groove and the cushion block.

Through adopting above-mentioned technical scheme, the cushion is placed in the standing groove, reduces the possibility of cushion protrusion first fixed plate, and fills the solid fixed glue in cushion and the standing groove, improves the stability of cushion and pulling pole, reduces the possibility that grey layer etc. got into between first fixed plate and the regulating plate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. a first buffer component is arranged between the first mounting plate and the first sash, and a second buffer component is arranged between the second mounting plate and the second window frame, so that the impact strength between the first sash and the first mounting plate and between the second mounting plate and the second window frame are reduced, and the possibility of damage to the hollow glass caused by impact is reduced;

2. a heat insulation rubber strip is arranged between the first window frame and the second window frame, so that the transmission of indoor and outdoor temperature difference is reduced, and the possibility that an ash layer falls between the two window frames is reduced;

3. the pulling rod is arranged between the adjusting plate and the first fixing plate, so that the difficulty in detaching the first fixing plate is reduced.

Drawings

Fig. 1 is an overall configuration diagram of the background art.

Fig. 2 is an overall structural view of the embodiment of the present application.

Fig. 3 is an enlarged view of a in fig. 2.

Fig. 4 is an enlarged view at B in fig. 2.

Fig. 5 is a schematic view illustrating an installation of the first fixing plate and the first sash in the embodiment of the present application.

Fig. 6 is an enlarged view at C in fig. 5.

Description of reference numerals: 1. a window frame; 11. a first window frame; 12. a second window frame; 13. a first mounting plate; 131. a first mounting groove; 132. a second mounting groove; 2. a window sash; 21. a second mounting plate; 211. a third mounting groove; 212. a fourth mounting groove; 22. a first sash; 221. a first clamping block; 222. a second fixture block; 23. a second sash; 231. a connecting plate; 3. hollow glass; 31. sealing glue; 4. a first buffer assembly; 41. connecting blocks; 411. a vertical block; 412. a horizontal block; 42. a buffer strip; 421. a vertical portion; 422. an inclined portion; 5. a second buffer assembly; 6. a first fixing plate; 61. elastic buckle; 62. a placement groove; 7. a second fixing plate; 71. an adjusting plate; 711. an elastic clamping hook; 8. pulling a rod; 81. cushion blocks; 82. fixing glue; 9. a mounting seat; 91. a heat insulation rubber strip.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses an aluminum alloy outward-opening window. Referring to fig. 2 and 3, the window frame includes a window frame 1, a window sash 2 and a hollow glass 3 installed on the window sash 2, the upper end of the window sash 2 is rotatably installed at the inner side of the upper end of the window frame 1, the window frame 1 includes a first window frame 11, a second window frame 12 and a first installation plate 13 integrally installed on the first window frame 11, the first window frame 11 and the second window frame 12 are distributed in an indoor direction toward the outdoor, the first installation plate 13 is located at the indoor side of the first window frame 11, the window sash 2 includes a first window sash 22, a second window sash 23 and a second installation plate 21 installed at the lower end of the second window sash 23, the first window sash 22 and the second window sash 23 are distributed in an indoor direction toward the outdoor, the second installation plate 21 is located at the outdoor side of the second window sash 23, a first installation groove 131 is formed in the first installation plate 13, a second installation groove 132 is formed in the surface of the outdoor side of the first installation plate 13, the second installation groove 132 is communicated with the first installation groove 131, the width of the second installation groove 132 is smaller than the width of the first installation groove 131, and a first buffer assembly 4 is installed between the first installation plate 13 and the first window sash 22.

Referring to fig. 3, the first buffer assembly 4 includes a connection block 41 and a buffer bar 42, the connection block 41 includes a vertical block 411 and a horizontal block 412, the vertical block 411 is installed in the first installation 131, the horizontal block 412 is installed in the second installation groove 132, one end of the horizontal block 412 is installed integrally with the vertical block 411, the other end extends along one side indoor toward the outdoor and is flush with the surface outdoor of the first installation plate 13, the buffer bar 42 includes a vertical portion 421 and an inclined portion 422, the vertical portion 421 is installed integrally on the horizontal block 412, one end of the inclined portion 422 is installed integrally with the upper end of the vertical portion 421, and the other end extends obliquely downward along the indoor direction toward the outdoor.

Referring to fig. 2 and 4, a third mounting groove 211 is formed in the second mounting plate 21, a fourth mounting groove 212 is formed on an indoor-facing surface of the second mounting plate 21, the fourth mounting groove 212 communicates with the third mounting groove 211 and a width of the fourth mounting groove 212 is smaller than that of the third mounting groove 211, a second buffer assembly 5 is installed between the second mounting plate 21 and the second window frame 12, the second buffer assembly 5 includes a connection block 41 and a buffer strip 42, the connection block 41 includes a vertical block 411 and a horizontal block 412, the vertical block 411 is installed in the third mounting groove 211, the horizontal block 412 is installed in the fourth mounting groove 212, one end of the horizontal block 412 is installed integrally with the vertical block 411, and the other end extends along an outdoor-facing-indoor side and is flush with an indoor-facing surface of the second mounting plate 21, the buffer strip 42 includes a vertical portion 421 and an inclined portion 422, the vertical portion 421 is installed integrally on the horizontal block 412, one end of the inclined portion 422 is installed integrally with a lower end of the vertical portion 421, and the other end extends obliquely upward along an outdoor-facing-indoor direction, when the window sash 2 and the window glass 3 are rotated downward, the first mounting plate 22 impacts on the first mounting plate 13, thereby reducing possible damage to the window sash 2 when the window sash 2 is closed, and the window sash 2 impacts on the second mounting plate 12.

Referring to fig. 2, the mounting seats 9 are installed on the surfaces of the first window frame 11 and the second window frame 12, two heat insulation rubber strips 91 are installed between the first window frame 11 and the second window frame 12, the two heat insulation rubber strips 91 are distributed along the vertical direction, and the two ends of each heat insulation rubber strip 91 are respectively clamped in the mounting seats 9 on the two sides, so that the isolation effect of indoor and outdoor temperatures is improved.

The connecting plate 231 is integrally installed at the top end of the second window sash 23, the connecting plate 231 is located on the outdoor side of the hollow glass 3, and the top end of the connecting plate 231 is fixedly connected with the outdoor surface of the hollow glass 3 through the sealant 31, so that the possibility that dust, rainwater and the like enter the space between the second window sash 23 from the space between the top end of the connecting plate 231 and the hollow glass 3 is reduced.

Install first fixed plate 6 and second fixed plate 7 between first casement 22 and cavity glass 3, first fixture block 221 is installed on the top of first casement 22, the bottom of first fixed plate 6 is installed along indoor towards outdoor direction upward elastic deformation's elasticity buckle 61, elasticity buckle 61 along vertical direction joint on first fixture block 221 one side surface indoor dorsad, first fixed plate 6 is vertical upwards to be extended, the one end of second fixed plate 7 and the integrative setting of the upper end of first fixed plate 6, the other end extends to cavity glass 3 department along indoor towards outdoor direction, second fixed plate 7 is close to between one end of cavity glass 3 and the cavity glass 3 through sealed glue 31 sealing connection, thereby reduce the possibility in the entering first casement 22 of dust etc..

Referring to fig. 2 and 5, a second latch 222 is installed at the top end of the first sash 22, the first latch 221 and the second latch 222 are distributed along the indoor direction facing the outdoor, an elastic adjusting plate 71 is integrally installed on the lower surface of the second fixing plate 7, the adjusting plate 71 extends obliquely and downwardly along the outdoor direction facing the indoor, an elastic hook 711 elastically deformed in the indoor-to-outdoor direction is installed at the bottom end of the adjusting plate 71, and the elastic hook 711 is vertically hooked on one side surface of the second latch 222 facing the indoor.

Referring to fig. 5 and 6, a pulling rod 8 for pulling the adjusting plate 71 toward the first fixing plate 6 so as to loosen the elastic hook 711 and the second latch 222 is installed between the adjusting plate 71 and the first fixing plate 6, one end of the pulling rod 8 is installed on the adjusting plate 71, the other end of the pulling rod passes through the first fixing plate 6 and then is connected with a cushion block 81, a placing groove 62 is formed in one indoor side surface of the first fixing plate 6, the cushion block 81 is located in the placing groove 62, and fixing glue 82 is filled between the placing groove 62 and the cushion block 81, so that one indoor side surface of the first fixing plate 6 is smooth.

The implementation principle of the aluminum alloy outward-opening window in the embodiment of the application is as follows:

when the opened outward-opening window needs to be closed, the handle on the outward-opening window is pulled, the window sash 2 and the hollow glass 3 are rotated downwards, and when the first window sash 22 and the second mounting plate 21 rotate downwards, the handle is respectively contacted with the inclined part 422 of the buffer strip 42 in the first buffer assembly 4 and the second buffer assembly 5 and extrudes the inclined part 422, so that the impact force between the first window sash 22 and the first mounting plate 13 and between the second mounting plate 21 and the second window frame 12 is reduced, and the possibility of damage of the hollow glass 3 under impact is reduced.

And a heat insulation rubber strip 91 is arranged between the first sash 22 and the second sash 23 as well as between the first window frame 11 and the second window frame 12, so that the heat insulation effect between the window frames 1 and 2 is improved.

The sealant 31 is installed between the connection plate 231 and the surface of the hollow glass 3 facing the outdoor, and the sealant 31 is installed on the second fixing plate 7 and the surface of the hollow glass 3 facing the indoor, so that the possibility of dust, moisture, etc. penetrating into the window sash 2 is reduced.

A first clamping block 221 and an elastic buckle 61 are arranged between the first fixing plate 6 and the first window sash 22, and a second buckle and an adjusting plate 71 are arranged between the second fixing plate 7 and the first window sash 22, so that the difficulty in mounting and dismounting the window sash 2 and the hollow glass 3 is reduced.

When the hollow glass 3 needs to be disassembled, the fixing glue 82 in the placing groove 62 is removed, the cushion block 81 and the pulling rod 8 are pulled, so that the elastic hook 711 at the lower end of the elastic adjusting plate 71 is separated from the second block 222, and the hollow glass 3 is disassembled.

The above is a preferred embodiment of the present application, and the scope of protection of the present application is not limited by the above, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an aluminum alloy swinging-out casement window, includes window frame (1), casement (2) and installs cavity glass (3) on casement (2), and the upper end of casement (2) is rotated and is installed in window frame (1) upper end, window frame (1) includes first window frame (11), second window frame (12) and integrative first mounting panel (13) of setting on first window frame (11), indoor orientation outdoor direction distribution is followed in first window frame (11) and second window frame (12), first mounting panel (13) are located first window frame (11) towards indoor one side, casement (2) include first casement (22), second casement (23) and install second mounting panel (21) at second casement (23) lower extreme, indoor orientation outdoor direction distribution is followed in first casement (22) and second casement (23), second mounting panel (21) are located second casement (23) towards outdoor one side, its characterized in that: be provided with on first mounting panel (13) and be used for slowing down first buffer unit (4) of striking dynamics between first casement (22) and first mounting panel (13), be provided with on second mounting panel (21) and be used for slowing down second buffer unit (5) of striking dynamics between second mounting panel (21) and second window frame (12).

2. The aluminum alloy outward opening window of claim 1, characterized in that: first buffer unit (4) are including buffering strip (42), buffering strip (42) are including vertical portion (421) and rake (422), vertical portion (421) set up on first mounting panel (13) one side surface towards outdoor, the one end of rake (422) sets up with the upper end of vertical portion (421) is integrative, and the other end extends downwards along indoor orientation outdoor direction slope.

3. The aluminum alloy outward opening window of claim 2, wherein: first buffer unit (4) still includes connecting block (41), connecting block (41) are including vertical piece (411) and horizontal piece (412), first mounting groove (131) that run through first mounting panel (13) both ends along window frame (1) length direction have been seted up in first mounting panel (13), second mounting groove (132) have been seted up on first mounting panel (13) the side surface that is indoor dorsad, first mounting groove (131) and second mounting groove (132) intercommunication and second mounting groove (132) width are less than first mounting groove (131), vertical piece (411) set up in first mounting groove (131), horizontal piece (412) an organic whole sets up on vertical piece (411) and is arranged in second mounting groove (132), horizontal piece (412) the surface and vertical portion (421) an organic whole connection of vertical piece (411) dorsad.

4. The aluminum alloy outward opening window of claim 1, characterized in that: first window frame (11) and second window frame (12) are relative all to be provided with two mount pads (9) on the surface, be provided with two thermal-insulated adhesive tape (91) that distribute along vertical direction between first window frame (11) and second window frame (12), the one end of thermal-insulated adhesive tape (91) sets up on mount pad (9) on first window frame (11), and the other end sets up on mount pad (9) on second window frame (12), the both ends and two of thermal-insulated adhesive tape (91) mount pad (9) are sealing connection all.

5. The aluminum alloy outward opening window of claim 1, characterized in that: the top of second casement (23) an organic whole is provided with connecting plate (231), connecting plate (231) are located cavity glass (3) towards outdoor one side, through sealed glue (31) fixed connection between the top of connecting plate (231) and cavity glass (3) towards outdoor side surface, be provided with first fixed plate (6) and second fixed plate (7) between first casement (22) and cavity glass (3), the bottom of first fixed plate (6) can be dismantled and set up at first casement (22) upper surface and be close to first casement (22) towards indoor side surface, the integrative top that sets up at first fixed plate (6) of one end of second fixed plate (7), the other end to cavity glass (3) horizontal extension and with cavity glass (3) between be connected through sealed glue (31).

6. The aluminum alloy outward opening window of claim 5, wherein: the bottom of first fixed plate (6) is provided with elastic buckle (61) at indoor to outdoor orientation elastic deformation, the upper surface of first casement (22) is provided with along indoor towards outdoor convex first fixture block (221), elastic buckle (61) along vertical direction joint on first fixture block (221).

7. The aluminum alloy outward opening window of claim 5, wherein: elastic adjusting plate (71) is arranged on the lower surface of the second fixing plate (7) in an integrated mode, the adjusting plate (71) extends downwards along the direction inclined towards the indoor direction from the outdoor to the indoor, the upper surface of the first window sash (22) is provided with a second clamping block (222) protruding towards the indoor direction from the outdoor to the outdoor, the bottom end of the adjusting plate (71) is provided with an elastic clamping hook (711) elastically deforming in the indoor direction to the outdoor, and the elastic clamping hook (711) is clamped on the second clamping block (222) along the vertical direction.

8. The aluminum alloy outward opening window of claim 7, wherein: thereby be provided with between regulating plate (71) and first fixed plate (6) and be used for making the pulling pole (8) of elasticity trip (711) and second fixture block (222) pine to first fixed plate (6) direction pulling regulating plate (71), the one end setting of pulling pole (8) is on regulating plate (71), and the other end wears to establish on first fixed plate (6).

9. The aluminum alloy outward opening window of claim 8, wherein: be provided with cushion (81) on pulling pole (8), cushion (81) are located first fixed plate (6) on the indoor surface of orientation.

10. The aluminum alloy outward opening window of claim 9, wherein: a placing groove (62) is formed in the surface, facing the indoor, of the first fixing plate (6), the cushion block (81) is located in the placing groove (62), and fixing glue (82) is filled between the placing groove (62) and the cushion block (81).

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