CN219528787U - Aluminum alloy window system with staggered upper and lower fixed window inlet and outlet positions - Google Patents

Abstract

The utility model discloses an aluminum alloy window system with staggered in-out positions of upper and lower fixed window glass, which comprises an aluminum alloy window frame, an aluminum alloy Z-shaped middle frame, corner assembling codes, glass panels, press lines and cover plates, wherein the aluminum alloy window frame is an aluminum alloy bridge-cut-off heat insulation frame with inner and outer axisymmetric and can be used as a transverse frame and a vertical frame, a second glass notch and a first glass notch are symmetrically arranged in the inner and outer directions, the aluminum alloy Z-shaped middle frame is of a central symmetric structure, two glass notches are symmetrically arranged in the upper and lower directions, the aluminum alloy Z-shaped middle frame is fixedly connected with the middle positions of left and right vertical frames, the upper and lower transverse frames and the left and right vertical frames are spliced and combined at 45 degrees through the corner assembling codes, the glass panels are installed in an up-down staggered mode, and finally the press lines and the cover plates are matched, and sealing glue is filled. The utility model can meet the appearance requirement of architectural design on staggered in-and-out positions of upper and lower fixed window glass, and is safe, reliable, waterproof and convenient to process and install.

Description

Aluminum alloy window system with staggered upper and lower fixed window inlet and outlet positions

Technical Field

The utility model belongs to the field of building external decoration, and particularly relates to an aluminum alloy window system with staggered upper and lower fixed window inlet and outlet positions.

Background

In the field of building exterior trim doors and windows, fixed window panes are usually located on the same vertical entrance face. In the prior art, the fixed window frame is only provided with a notch for embedding glass, the muntin is also provided with a notch for embedding glass at a position corresponding to the window frame, and the upper and lower fixed window glass is made on the same vertical outgoing surface, so that the form is single.

Therefore, it is necessary to design an aluminum alloy window system with staggered upper and lower fixed window glass inlet and outlet positions, which not only meets the requirements of architectural design on the appearance effect of staggered upper and lower fixed window glass inlet and outlet positions, but also is safe, reliable, waterproof and convenient to process and install.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide an aluminum alloy window system with staggered up-down fixed window glass inlet and outlet positions.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an aluminum alloy window system that fixed window business turn over position staggers from top to bottom, includes aluminum alloy window frame, aluminum alloy Z well club, group angle sign indicating number, glass panels, line ball and apron, wherein:

the aluminum alloy window frame is an aluminum alloy bridge-cut-off heat insulation frame with internal and external axisymmetric, and is used as a transverse frame and a vertical frame, the aluminum alloy bridge-cut-off heat insulation frame comprises a first window frame body and a second window frame body, the first window frame body and the second window frame body are connected through parallel heat insulation strips arranged at two ends of adjacent side edges, a first line pressing notch, a first glass notch and a first window frame right vertical plate extending rightward are sequentially arranged on the right side edge of the first window frame body from front to back, the second window frame body and the first window frame body are axisymmetric along the center line of the left and right directions of the heat insulation strips, a second window frame body, a second line pressing notch, a second glass notch and a second window frame right vertical plate are correspondingly arranged on the second window frame body, and square cavities are respectively arranged in the first window frame body and the second window frame body;

the aluminum alloy Z-shaped mullion is of a central symmetry structure and comprises an outer mullion and an inner mullion, wherein the outer mullion and the inner mullion are connected through parallel heat insulation strips installed on adjacent sides, the outer mullion comprises an outer mullion main body, a wire pressing notch and a glass notch are formed in the rear end of the outer mullion main body from right to left, the intersection point of two central lines of the outer mullion and the inner mullion, which are used as symmetry points, of the parallel heat insulation strips is in central symmetry, an inner mullion main body, the wire pressing notch and the glass notch are correspondingly formed in the inner mullion, a plurality of nail holes are symmetrically formed in the outer mullion main body and the inner mullion main body, and the aluminum alloy Z-shaped mullion is fixedly connected with the middle position of the left vertical frame and the right vertical frame;

the corner fitting is of an L-shaped symmetrical structure and comprises a first connecting arm and a second connecting arm which are vertically connected, and the first connecting arm and the second connecting arm are respectively inserted into corresponding square cavities in the transverse frame and the vertical frame so as to connect the transverse frame and the vertical frame;

the glass panel comprises an upper glass panel and a lower glass panel, wherein the upper end and the left and right ends of the upper glass panel are respectively arranged in first glass notches of an upper transverse frame and a left and right vertical frames, the lower end and the left and right ends of the lower glass panel are respectively arranged in second glass notches of a lower transverse frame and a left and right vertical frames, and the lower end of the upper glass panel and the upper end of the lower glass panel are respectively arranged in glass notches of an outer muntin and an inner muntin of an aluminum alloy Z-shaped muntin;

the wire pressing device comprises a glass panel, a first wire pressing notch, a second wire pressing notch, a first wire pressing notch and a second wire pressing notch, wherein the lower end of the wire pressing is of a U-shaped structure, and the lower end of the wire pressing notch is adjacent to the glass panel and is clamped with the first wire pressing notch and the second wire pressing notch so as to fix the glass surface material;

the cover plate comprises a frame cover plate and a muntin cover plate, wherein the frame cover plate is arranged on the outer side of an aluminum alloy window frame, and the muntin cover plate is arranged on the outer side of an aluminum alloy Z-shaped muntin so as to beautify the appearance.

Further, the front end of the first window frame main body and the rear end of the second window frame main body extend leftwards respectively to form a window frame left vertical plate so as to form a cavity between the window frame left vertical plate and the structure during installation, and heat-insulating waterproof materials can be conveniently filled.

Further, the front side of the right vertical plate of the first window frame is provided with an angle inserting piece notch and a first sealant notch from left to right in sequence, the right vertical plate of the second window frame is correspondingly provided with an angle inserting piece notch and a second sealant notch, and the angle inserting piece notch is used for inserting an angle inserting piece.

Further, the two ends of the corner inserting piece are respectively inserted into corner inserting piece notches of the transverse frame and the vertical frame, so that corner assembling strength is enhanced.

Further, from the first line ball notch, the first window frame of the lower half of the lower horizontal frame, the left and right vertical frames, cover the frame cover plate matched with the distance from the first line ball notch to the second window frame right vertical plate through the first glass notch and the first window frame right vertical plate.

Further, the second window frame at the upper half parts of the upper transverse frame and the left and right vertical frames is covered with a frame cover plate matched with the first window frame from the second line pressing notch to the first window frame right vertical plate through the second glass notch and the second window frame right vertical plate.

Further, the left side edge of the outer muntin main body is sequentially provided with a lower section, a middle section formed by bending leftwards and an upper section formed by bending rightwards from bottom to top, the left side of the front end of the lower section is provided with a bulge, the left side two ends of the middle section are provided with heat insulation strip notches, the left side of the rear end of the upper section is provided with a bulge, and the right side of the rear end of the upper section is also provided with a sealant notch; the inner muntin main body is correspondingly provided with a bulge, a heat insulation strip notch and a sealant notch.

Further, the upper outer side and the lower outer side of the parallel heat insulation strips for connecting the inner mullion and the outer mullion are provided with mullion cover plate notches, and the mullion cover plates matched with the mullion cover plates in distance are covered, wherein the mullion cover plates are in corresponding protruding clamping connection with the inner mullion and the outer mullion.

Further, glass cushion blocks are arranged between the lower ends of the upper glass panel and the lower glass panel and the corresponding glass notch and second glass notch, and glass cushion blocks are arranged between the left end and the right end of the upper glass panel and the lower glass panel and the corresponding first glass notch and second glass notch.

Further, symmetrical trapezoid cavities are arranged in the first connecting arm and the second connecting arm of the corner fitting, and are used for locking and positioning when the corner fitting is performed on the frame.

Further, a plurality of limit grooves are symmetrically formed in the outer corner faces of the first connecting arm and the second connecting arm and are used for being clamped with the aluminum alloy window frame.

Further, a plurality of corner glue grooves are formed in the outer corner faces and the inner corner faces of the first connecting arm and the second connecting arm, and glue injection grooves are further formed in the outer corner faces of the first connecting arm and the second connecting arm.

Further, the transverse frame and the vertical frame are spliced by 45 degrees.

The aluminum alloy window system with staggered upper and lower fixed window glass inlet and outlet positions has the following beneficial effects:

the aluminum alloy window system with staggered upper and lower fixed window glass inlet and outlet positions can meet the appearance requirement of architectural design on staggered upper and lower fixed window glass inlet and outlet positions, is safe and reliable, waterproof and is convenient to process and install.

Drawings

Fig. 1 is a schematic vertical section of the present utility model.

Fig. 2 is an assembled schematic view of the present utility model.

Fig. 3 is a schematic structural view of an aluminum alloy window frame in the utility model.

Fig. 4 is a schematic structural view of an aluminum alloy Z-type mullion in the present utility model.

Fig. 5 is a schematic structural diagram of a corner fitting according to the present utility model.

Fig. 6 is a schematic connection diagram of the aluminum alloy Z-shaped mullion and the vertical frame of the present utility model.

Fig. 7 is an enlarged schematic view at a in fig. 2.

Fig. 8 is a schematic diagram illustrating the connection between the upper glass panel and the vertical frame.

Fig. 9 is a schematic diagram illustrating the connection between the lower glass panel and the vertical frame.

In the figure: 10-aluminum alloy window frames; 11-a first window jamb; 12-a second window jamb; 13-insulating strips; 14-square cavity; 15-a transverse frame; 16-vertical frames; 17-corner tab; 111-a first window jamb body; 112-window jamb left riser; 113-a first wire pressing notch; 114-a first glass notch; 115-a first window jamb right riser; 116-corner tab slot; 117-a first sealant slot; 121-a second window jamb body; 122-a second wire pressing notch; 123-a second glass notch; 124-a second window jamb right riser; 125-a second sealant slot;

20-aluminum alloy Z-shaped mullion; 21-outer muntin; 22-inner muntin; 211-an outer muntin body; 212-a wire pressing notch; 213-glass notch; 214-lower section; 215-middle section; 216-upper section; 217-bump; 218-a sealant slot; 219-nail holes; 221-an inner muntin body; 23-a muntin cover plate notch;

30-group corner codes; 31-a first connecting arm; 32-a second connecting arm; 33-trapezoidal cavity; 34-a limit groove; 35-a glue injection groove; 36-corner glue grooves;

40-glass panel; 41-upper glass panel; 42-lower glass panel; 50-pressing lines; 60-cover plate; 61-a frame cover plate; 62-muntin cover plate; 70-sealing glue; 71-pan head self-tapping nails; 72-glass cushion block.

Detailed Description

The aluminum alloy window system with staggered up-down fixed window glass inlet and outlet positions is further described in detail below with reference to the specific drawings.

As shown in fig. 1 and 2, the aluminum alloy window system with staggered upper and lower fixed window inlet and outlet positions comprises an aluminum alloy window frame 10, an aluminum alloy Z-shaped muntin 20, a corner fitting 30, a glass panel 40, a pressing line 50 and a cover plate 60.

Referring to fig. 3, the aluminum alloy window frame 10 is an aluminum alloy bridge-cut-off heat insulation frame with inner and outer axisymmetric, and can be used as a transverse frame 15 and a vertical frame 16, and comprises a first window frame 11 and a second window frame 12, which are connected through parallel heat insulation strips 13 installed at two ends of adjacent sides, wherein the first window frame 11 comprises a first window frame main body 111, the front end of the left side of the first window frame main body 111 extends leftwards to form a window frame left riser 112, the right side of the first window frame main body 111 is sequentially provided with a first line pressing notch 113, a first glass notch 114 and a first window frame right riser 115 extending rightwards from front to back, the front side of the first window frame right riser 115 is sequentially provided with an angle inserting notch 116 and a first sealant notch 117 from left to right, and two ends of the rear side plate of the first window frame main body 111 are backwards provided with heat insulation strip notches 118 for installing the heat insulation strips 13;

the second window frame 12 is axisymmetric with the first window frame 11 along the central line of the left and right directions of the heat insulation strip 13, a second window frame main body 121, a window frame left vertical plate 112, a second line pressing notch 122, a second glass notch 123, a second window frame right vertical plate 124, an angle inserting piece notch 116, a second sealant notch 125 and a heat insulation strip notch 118 are correspondingly arranged on the second window frame 12, a square cavity 14 is respectively arranged in the first window frame main body 111 and the second window frame main body 121 and used for inserting a corner combining code 30 for connecting the transverse frame 15 and the vertical frame 16, and the angle inserting piece notch 116 is used for inserting the angle inserting piece 17.

In the present utility model, when the aluminum alloy window frame 10 is used as the upper and lower lateral frames 15 or the left and right vertical frames 16, the spatial positions of the respective portions in the structure are different from those specifically described above, but the relative positions thereof are not changed.

Referring to fig. 4, the aluminum alloy Z-shaped mullion 20 is in a central symmetry structure, and comprises an outer mullion 21 and an inner mullion 22, which are connected through parallel heat insulation strips 13 installed on adjacent sides, wherein the outer mullion 21 comprises an outer mullion main body 211, a wire pressing notch 212 and a glass notch 213 are sequentially arranged at the rear end of the outer mullion main body 211 from right to left, a lower section 214 is sequentially arranged at the left side of the outer mullion main body 211 from bottom to top, a middle section 215 formed by bending leftwards and an upper section 216 formed by bending rightwards, a protrusion 217 is arranged at the left side of the front end of the lower section 214, heat insulation strip notches 118 are formed at the left side of the middle section 215 and are used for installing heat insulation strips 13, a protrusion 217 is arranged at the left side of the rear end of the upper section 216, a sealant notch 218 is further formed at the right side of the rear end of the upper section, and a plurality of nail holes 219 are formed in an inner cavity of the outer mullion main body 211;

the inner muntin 22 and the outer muntin 21 are centrally symmetrical with the intersection point of two central lines of the parallel heat insulation strips 13 as a symmetrical point, the inner muntin 22 is correspondingly provided with an inner muntin main body 221, a line pressing notch 212, a glass notch 213, the right side edge of the inner muntin main body 221 is correspondingly provided with an upper section 216, a middle section 215 and a lower section 214, and corresponding positions of the inner muntin 22 and the outer muntin are provided with a bulge 217, a heat insulation strip notch 118, a sealant notch 218 and a nail hole 219, and the inner muntin 22 and the outer muntin 21 which are connected form a muntin cover plate notch 23 on the upper side and the lower side of the parallel heat insulation strips 13 respectively.

Referring to fig. 5, the corner assembling device 30 is an L-shaped symmetrical structure, and includes a first connecting arm 31 and a second connecting arm 32, symmetrical trapezoidal cavities 33 are disposed in the first connecting arm 31 and the second connecting arm 32, a limiting groove 34, a glue injection groove 35 and a corner assembling notch 36 are symmetrically disposed on an outer corner surface of the corner assembling device 30, and corner assembling notches 36 are also symmetrically disposed on an inner corner surface of the corner assembling device 30.

The glass panel 40 includes an upper glass panel 41 and a lower glass panel 42; the pressing line 50 is of a U-shaped structure; the cover plate 60 comprises a frame cover plate 61 and a muntin cover plate 62, the frame cover plate 61 is installed on the outer side of the aluminum alloy window frame 10, and the muntin cover plate 62 is installed on the outer side of the aluminum alloy Z-shaped muntin 20 so as to beautify the appearance.

Example 1 assembly of outer frame

Firstly, the aluminum alloy window frame 10 is cut at 45 degrees, the aluminum alloy Z-shaped muntin 20 is cut at 90 degrees, and the aluminum alloy group corner bracket 30 is cut at 90 degrees to the required length. During assembly, the aluminum alloy Z-shaped mullion 20 is connected with the left and right vertical frames 16, and then the vertical frames 16 are connected with the transverse frames 15.

The specific assembly is shown in fig. 2 and 5-7, the aluminum alloy Z-shaped mullion 20 is fixedly connected with the middle positions of the left and right vertical frames 16 through pan head self-tapping nails 71, and the number and the positions of the pan head self-tapping nails 71 correspond to nail holes 219 of the aluminum alloy Z-shaped mullion 20; the square cavity 14 of the transverse frame 15 and the square cavity 16 are filled with a part of corner assembling glue before being spliced, the cross section of the square cavity 14 is coated with section glue (not shown in the figure), the corner assembling code 30 is positioned in the square cavity 14 at the spliced position of the transverse frame 15 and the vertical frame 16, small holes (not shown in the figure) are formed in the positions, corresponding to the glue injection grooves 35, of the aluminum alloy window frame 10, the corner assembling glue is injected into the glue injection grooves 35, and the corner assembling code 30 and the aluminum alloy window frame 10 are bonded together through the corner assembling glue filled in the corner assembling glue grooves 36 in a backflow mode. The two ends of the corner inserting piece 17 are respectively inserted into corner inserting piece notches 116 of the horizontal frame 15 and the vertical frame 16, so that the flatness of the outer frame is ensured, and the corner assembling strength is enhanced. Finally, when the aluminum alloy window frame 10 and the corner combining code 30 are locked by the corner combining machine, the corner combining machine extrudes the position of the trapezoid cavity 33, and extrudes the section bar on the aluminum alloy window frame 10 into the limit groove 35, so that the buckle locking and positioning are formed. Under the combined action of corner combining glue bonding, corner inserting piece 17 connection and mechanical clamping, the connection strength of the corner combining code 30 and the aluminum alloy window frame 10 is ensured.

After the outer frame is assembled, the aluminum alloy window frame 10 can be installed and fixed in an opening of an outer wall structure, and a cavity (not shown in the figure) is formed between the left vertical plate 112 of the window frame of the aluminum alloy window frame 10 and the structure, so that the aluminum alloy window frame is convenient to be filled with heat-insulating waterproof materials, and plays a role in heat insulation and water prevention.

Example 2 mounting of glass Panel

As shown in fig. 1 and 8-9, the upper end and the left and right ends of the upper glass panel 41 are respectively installed in the first glass notches 114 of the upper transverse frame 15 and the vertical frame 16, the corresponding first wire pressing notches 113 of the upper transverse frame 15 and the vertical frame 16 are internally provided with the wire pressing 50, the lower ends of the wire pressing 50 are clamped with the first wire pressing notches 113, from the second wire pressing notch 122, through the second glass notch 123 and the second window frame right riser 124, to the first window frame right riser 115, the frame cover plate 61 matched with the distance between the wire pressing 50 and the first sealant notch 117 of the first right riser 115 and the upper glass panel 41 is covered, and the sealant 70 is filled.

The lower end and the left and right ends of the lower glass panel 42 are respectively installed in the second glass notch 123 of the lower transverse frame 15 and the second glass notch 123 of the vertical frame 16, the corresponding lower transverse frame 15 and the corresponding second wire pressing notch 122 of the vertical frame 16 are internally provided with the wire pressing line 50, the lower end of the wire pressing line 50 is clamped with the second wire pressing notch 122, from the first wire pressing notch 113, the wire pressing line is covered with the frame cover plate 61 matched with the distance from the first glass notch 114 to the first window frame right riser 115 to the second window frame right riser 124, and the sealant 70 is filled between the first sealant notch 125 of the wire pressing line 50 and the first window frame right riser 124 and the lower glass panel 42.

The lower extreme of going up glass panel 41 and the upper end of lower glass panel 42 are installed respectively in the glass notch 213 of outer muntin 21 and interior muntin 22 of aluminum alloy Z muntin 20, the line ball notch 212 joint line ball 50 of outer muntin 21 and interior muntin 20, muntin apron notch 23 lid closes the muntin apron 62 with its distance looks adaptation, muntin apron 62 and protruding 217 joint to pack the sealant 70 at line ball 50 and sealant notch 218 and the clearance of glass panel 40.

Glass cushion blocks 72 are arranged between the lower ends of the upper glass panel 41 and the lower glass panel 42 and the corresponding openings of the glass notch 213 and the second glass groove 123, and glass cushion blocks 72 are arranged between the left and right ends of the upper glass panel 41 and the lower glass panel 42 and the corresponding openings of the first glass notch 114 and the second glass notch 123. The glass spacer 72 supports and positions the glass panel 40 to disperse the weight of the glass facer 40 to the framing profile and to avoid direct rigid contact of the glass with the profile.

Claims (13)

1. The utility model provides an aluminum alloy window system that fixed window business turn over position staggers from top to bottom, its characterized in that includes aluminum alloy window frame, aluminum alloy Z well club, group angle sign indicating number, glass panels, line ball and apron, wherein:

the aluminum alloy window frame is an aluminum alloy bridge-cut-off heat insulation frame with internal and external axisymmetric, and is used as a transverse frame and a vertical frame, the aluminum alloy bridge-cut-off heat insulation frame comprises a first window frame body and a second window frame body, the first window frame body and the second window frame body are connected through parallel heat insulation strips arranged at two ends of adjacent side edges, a first line pressing notch, a first glass notch and a first window frame right vertical plate extending rightward are sequentially arranged on the right side edge of the first window frame body from front to back, the second window frame body and the first window frame body are axisymmetric along the center line of the left and right directions of the heat insulation strips, a second window frame body, a second line pressing notch, a second glass notch and a second window frame right vertical plate are correspondingly arranged on the second window frame body, and square cavities are respectively arranged in the first window frame body and the second window frame body;

the aluminum alloy Z-shaped mullion is of a central symmetry structure and comprises an outer mullion and an inner mullion, wherein the outer mullion and the inner mullion are connected through parallel heat insulation strips installed on adjacent sides, the outer mullion comprises an outer mullion main body, a wire pressing notch and a glass notch are formed in the rear end of the outer mullion main body from right to left, the intersection point of two central lines of the outer mullion and the inner mullion, which are used as symmetry points, of the parallel heat insulation strips is in central symmetry, an inner mullion main body, the wire pressing notch and the glass notch are correspondingly formed in the inner mullion, a plurality of nail holes are symmetrically formed in the outer mullion main body and the inner mullion main body, and the aluminum alloy Z-shaped mullion is fixedly connected with the middle position of the left vertical frame and the right vertical frame;

the corner fitting is of an L-shaped symmetrical structure and comprises a first connecting arm and a second connecting arm which are vertically connected, and the first connecting arm and the second connecting arm are respectively inserted into corresponding square cavities in the transverse frame and the vertical frame so as to connect the transverse frame and the vertical frame;

the glass panel comprises an upper glass panel and a lower glass panel, wherein the upper end and the left and right ends of the upper glass panel are respectively arranged in first glass notches of an upper transverse frame and a left and right vertical frames, the lower end and the left and right ends of the lower glass panel are respectively arranged in second glass notches of a lower transverse frame and a left and right vertical frames, and the lower end of the upper glass panel and the upper end of the lower glass panel are respectively arranged in glass notches of an outer muntin and an inner muntin of an aluminum alloy Z-shaped muntin;

the wire pressing device comprises a glass panel, a first wire pressing notch, a second wire pressing notch, a first wire pressing notch and a second wire pressing notch, wherein the lower end of the wire pressing is of a U-shaped structure, and the lower end of the wire pressing notch is adjacent to the glass panel and is clamped with the first wire pressing notch and the second wire pressing notch so as to fix the glass surface material;

the cover plate comprises a frame cover plate and a muntin cover plate, wherein the frame cover plate is arranged on the outer side of an aluminum alloy window frame, and the muntin cover plate is arranged on the outer side of an aluminum alloy Z-shaped muntin so as to beautify the appearance.

2. The aluminum alloy window system of claim 1, wherein the front end of the first window frame body and the rear end of the second window frame body extend to the left to form a window frame left riser, respectively, to form a cavity between the structure and the window frame left riser when installed to facilitate filling with a heat insulating and waterproof material.

3. The aluminum alloy window system of claim 1, wherein the front side of the right riser of the first window frame is provided with an angle insert slot and a first sealant slot in sequence from left to right, and the right riser of the second window frame is provided with an angle insert slot and a second sealant slot, respectively, and the angle insert slot is used for inserting an angle insert.

4. The aluminum alloy window system of claim 3, wherein the two ends of the corner tabs are inserted into the corner tab notches of the horizontal and vertical frames, respectively, to enhance the group corner strength.

5. The aluminum alloy window system of claim 1, wherein the first window frame of the lower half of the lower transverse frame and the left and right vertical frames is covered with a frame cover plate matched with the first window frame from the first wire pressing notch through the first glass notch and the first window frame right riser to the second window frame right riser.

6. The aluminum alloy window system of claim 1, wherein the second window frame of the upper half of the upper transverse frame and the left and right vertical frames is covered with a frame cover plate matched with the distance from the second wire pressing notch to the right vertical plate of the first window frame through the second glass notch and the right vertical plate of the second window frame.

7. The aluminum alloy window system according to claim 1, wherein the left side edge of the outer muntin main body is sequentially provided with a lower section, a middle section formed by bending leftwards and an upper section formed by bending rightwards from bottom to top, the left side of the front end of the lower section is provided with a bulge, the left side two ends of the middle section are provided with heat insulation strip notches, the left side of the rear end of the upper section is provided with a bulge, and the right side of the rear end of the upper section is also provided with a sealant notch; the inner muntin main body is correspondingly provided with a bulge, a heat insulation strip notch and a sealant notch.

8. The aluminum alloy window system of claim 7, wherein the upper and lower outer sides of the parallel heat insulating strips connecting the inner mullion and the outer mullion are provided with mullion cover plate notches and cover a mullion cover plate matched with the mullion cover plate in distance, wherein the mullion cover plate is clamped with corresponding protrusions on the inner mullion and the outer mullion.

9. The aluminum alloy window system of claim 1, wherein glass spacers are disposed between lower ends of the upper and lower glass panels and the corresponding glass notches and second glass notches, and glass spacers are disposed between left and right ends of the upper and lower glass panels and the corresponding first and second glass notches.

10. The aluminum alloy window system of claim 1, wherein symmetrical trapezoidal cavities are arranged in the first connecting arm and the second connecting arm of the corner fitting for locking and positioning when the frame is corner fitting.

11. The aluminum alloy window system of claim 1, wherein the outer corner faces of the first and second connecting arms are symmetrically provided with a plurality of limiting grooves for clamping with the aluminum alloy window frame.

12. The aluminum alloy window system of claim 1, wherein the outer corner surfaces and the inner corner surfaces of the first connecting arm and the second connecting arm are provided with a plurality of corner glue grooves, and the outer corner surfaces of the first connecting arm and the second connecting arm are also provided with glue injection grooves.

13. The aluminum alloy window system of claim 1, wherein the lateral and vertical frames are spliced at 45 degrees.