CN218062008U - Six-way sealing bridge-cut-off aluminum-plastic composite door and window - Google Patents

Abstract

The utility model discloses a compound door and window of six sealed bridge cut-off plastic-aluminum relates to the technical field of door and window section bar, and it is low to have solved bridge cut-off plastic-aluminum door and window intensity, and the leakproofness is poor, and easy emergence is out of shape, the little problem of application scope, the utility model discloses in, be provided with first disconnected hot cold bridge, the disconnected hot cold bridge of second, the disconnected hot cold bridge of third, the disconnected hot cold bridge of fourth, the disconnected hot cold bridge of fifth and the disconnected hot cold bridge of sixth, through setting up the sealed bridge cut-off plastic-aluminum door and window structure of six, be provided with first additional strengthening simultaneously, second additional strengthening and third additional strengthening, effectively prevent the production of air convection, reinforcing door and window's thermal insulation performance, the plastic-aluminum separation performance of plastic-aluminum door and window of effectively reinforcing bridge cut-off plastic-aluminum door and window, reinforcing bridge cut-off door and window choke, the ability that blocks water, effectively reinforcing bridge cut-off plastic-aluminum door and window's intensity improves bridge cut-aluminum-plastic door and window's anti-pressure capacity, avoids bridge cut-plastic door and window to take place to warp, influences its intensity and separation performance.

Description

Six-way sealing bridge-cut-off aluminum-plastic composite door and window

Technical Field

The utility model relates to a technical field of door and window section bar especially relates to a compound door and window of six sealed bridge cut-off aluminium-plastic.

Background

Compared with aluminum-clad wood doors and windows, the bridge-cut aluminum-plastic doors and windows have the advantages of being light and thin in window bodies, low in carbon, environment-friendly, low in price and the like, the visual field is wider, the application range is wider, but the light and thin window bodies mean that the strength of the bridge-cut aluminum-plastic doors and windows is far lower than that of aluminum-clad wood doors and windows, the sealing performance is poorer, especially when the bridge-cut aluminum-plastic doors and windows are used for high-rise buildings, the bridge-cut aluminum-plastic doors and windows are easy to deform under the action of strong shock or strong wind pressure, the strength and the blocking performance of the window bodies are greatly influenced, and the bridge-cut aluminum-plastic doors and windows are poorer in blocking performance to wind, sand, water and the like, so that the bridge-cut aluminum-plastic doors and windows are difficult to be applied to areas with more wind, sand and rainwater.

SUMMERY OF THE UTILITY MODEL

To the problem of above-mentioned production, an object of the utility model is to provide a compound door and window of six sealed bridge cut-off aluminium-plastic.

In order to realize the purpose, the utility model discloses the technical scheme who takes does:

the utility model provides a six sealed bridge cut-off plastic-aluminum composite door and window, wherein, includes:

the window comprises a window frame 2 and a window sash 1, wherein the window frame 2 is movably connected with the window sash 1, and the window frame 2 comprises: locate the outer aluminium window frame 21 of outdoor side and locate the interior aluminium window frame 22 of indoor side, casement 1 includes: an outer aluminum fan frame 11 arranged at the outdoor side and an inner aluminum fan frame 12 arranged at the indoor side; the window frame 2 further includes: a frame glass layer and a window frame pressing piece 23, wherein the window frame pressing piece 23 is installed on the outer aluminum window frame 21, and the frame glass layer is installed on the inner aluminum window frame 22 and pressed by the window frame pressing piece 23; the window sash 1 further includes: the window frame comprises a sash glass layer and a sash pressing piece 13, wherein the sash pressing piece 13 is installed on the outer aluminum sash frame 11, and the sash glass layer is installed on the inner aluminum sash frame 12 and is pressed through the sash pressing piece 13;

one end of the first heat-insulation cold bridge 7 is connected with the outer aluminum window frame 21, and the other end of the first heat-insulation cold bridge 7 is connected with the inner aluminum window frame 22;

one end of the second heat-insulated cold bridge 8 is connected with the outer aluminum window frame 21, and the other end of the second heat-insulated cold bridge 8 is connected with the inner aluminum window frame 22;

one end of the third heat-insulation cold bridge 3 is connected with the outer aluminum fan frame 11, and the other end of the third heat-insulation cold bridge 3 is connected with the inner aluminum fan frame 12;

one end of the fourth heat-insulation cold bridge 4 is connected with the outer aluminum fan frame 11, and the other end of the fourth heat-insulation cold bridge 4 is connected with the inner aluminum fan frame 12;

one end of the fifth heat-insulation cold bridge 5 is connected with the outer aluminum fan frame 11, and the other end of the fifth heat-insulation cold bridge 5 is connected with the inner aluminum fan frame 12;

and a sixth heat-insulation cold bridge 6, wherein one end of the sixth heat-insulation cold bridge 6 is connected with the outer aluminum fan frame 11, and the other end of the sixth heat-insulation cold bridge 6 is connected with the inner aluminum fan frame 12.

Foretell six sealed bridge cut-off plastic-aluminum composite door and window, wherein, be equipped with first window frame side frame and window frame center on the window frame 2, be equipped with first casement side frame and second casement side frame on the casement 1, first casement side frame with first window frame side frame swing joint, second casement side frame with window frame center swing joint.

The six-sealing broken bridge aluminum-plastic composite door and window is characterized in that the first broken heat cold bridge 7 and the second broken heat cold bridge 8 are arranged on the window frame middle frame, and the outer aluminum window frame 21 and the inner aluminum window frame 22 are arranged between the two.

The six-sealing bridge-cut-off aluminum-plastic composite door window is characterized in that the third heat-insulation cold bridge 3 and the fourth heat-insulation cold bridge 4 are arranged between the outer aluminum sash frame 11 and the inner aluminum sash frame 12 at the first sash side frame.

Foretell six sealed bridge cut-off aluminum-plastic composite door and window, wherein, fifth disconnected hot cold bridge 5 with sixth disconnected hot cold bridge 6 all is located second casement frame department outer aluminium fan frame 11 with between the interior aluminium fan frame 12.

In the six-sealing bridge-cut-off aluminum-plastic composite door and window, the two ends of the first heat-cut-off cold bridge 7 are respectively provided with a first wedge-shaped connecting part, the first heat-cut-off cold bridge 7 is connected with the outer aluminum window frame 21 through one first wedge-shaped connecting part, and the first heat-cut-off cold bridge 7 is connected with the inner aluminum window frame 22 through the other first wedge-shaped connecting part; two tip of second disconnected hot cold bridge 8 all are equipped with second wedge connecting portion, second disconnected hot cold bridge 8 with outer aluminium window frame 21 is through one second wedge connecting portion connect, second disconnected hot cold bridge 8 with interior aluminium window frame 22 is through another second wedge connecting portion connect, and the middle part of first disconnected hot cold bridge 7 is equipped with first additional strengthening.

In the six-sealing bridge-cutoff aluminum-plastic composite door and window, the two end parts of the third heat-cutoff cold bridge 3 are respectively provided with a third wedge-shaped connecting part, the third heat-cutoff cold bridge 3 is connected with the outer aluminum fan frame 11 through one third wedge-shaped connecting part, and the third heat-cutoff cold bridge 3 is connected with the inner aluminum fan frame 12 through the other third wedge-shaped connecting part; both ends of the fourth heat-insulated cold bridge 4 are provided with fourth wedge-shaped connecting parts, the fourth heat-insulated cold bridge 4 is connected with the outer aluminum fan frame 11 through one fourth wedge-shaped connecting part, and the fourth heat-insulated cold bridge 4 is connected with the inner aluminum fan frame 12 through the other fourth wedge-shaped connecting part; and second reinforcing structures are arranged in the middle of the third heat-breaking cold bridge 3 and the middle of the fourth heat-breaking cold bridge 4.

In the six-sealing bridge-cutoff aluminum-plastic composite door and window, the two ends of the fifth heat-cutoff cold bridge 5 are respectively provided with a fifth wedge-shaped connecting part, the fifth heat-cutoff cold bridge 5 is connected with the outer aluminum sash frame 11 through one fifth wedge-shaped connecting part, and the fifth heat-cutoff cold bridge 5 is connected with the inner aluminum sash frame 12 through the other fifth wedge-shaped connecting part; both ends of the sixth heat-insulation cold bridge 6 are provided with sixth wedge-shaped connecting parts, the sixth heat-insulation cold bridge 6 is connected with the outer aluminum fan frame 11 through one sixth wedge-shaped connecting part, and the sixth heat-insulation cold bridge 6 is connected with the inner aluminum fan frame 12 through the other sixth wedge-shaped connecting part; and a third reinforcing structure is arranged in the middle of the fifth heat-breaking cold bridge 5 and the sixth heat-breaking cold bridge 6.

Foretell six sealed bridge cut-off plastic-aluminum composite door and window, wherein, each second additional strengthening includes: the first connecting plate, the first reinforcing plate and the first transverse plates are arranged in parallel, one end of each first transverse plate is connected with the first connecting plate, the other end of each first transverse plate is connected with the first reinforcing plate, and the first connecting plate, the first reinforcing plate and any adjacent two first transverse plates surround to form an isosceles trapezoid structure.

Foretell six sealed bridge cut-off plastic-aluminum composite door and window, wherein, each third additional strengthening includes: the second connecting plate, a second reinforcing plate and a plurality of second diaphragm, the second connecting plate with second reinforcing plate parallel arrangement, the one end of each second diaphragm with the second connecting plate is connected, the other end of each second diaphragm with the second reinforcing plate is connected, the second connecting plate the second reinforcing plate with arbitrary adjacent two the second diaphragm surrounds and forms isosceles trapezoid structure.

The utility model discloses owing to adopted above-mentioned technique, make it compare the positive effect that has with prior art and be:

(1) The utility model discloses in, be provided with first disconnected hot cold bridge, the disconnected hot cold bridge of second, the disconnected hot cold bridge of third, the disconnected hot cold bridge of fourth, the disconnected hot cold bridge of fifth and the disconnected hot cold bridge of sixth in the bridge cut-off aluminum-plastic door and window, through setting up six sealed bridge cut-off aluminum-plastic door and window structures, effectively prevent the production of air convection, reinforcing door and window's thermal insulation performance.

(2) The utility model discloses in, be provided with first disconnected hot cold bridge, the disconnected hot cold bridge of second, the disconnected hot cold bridge of third, the disconnected hot cold bridge of fourth, the disconnected hot cold bridge of fifth and the disconnected hot cold bridge of sixth in the bridge cut-off plastic-aluminum door and window, through setting up six sealed bridge cut-off plastic-aluminum door and window structures, effectively strengthen bridge cut-off plastic-aluminum door and window's separation performance, reinforcing bridge cut-off plastic-aluminum door and window choke, the ability that blocks water guarantee that bridge cut-off plastic-aluminum door and window has higher separation performance.

(3) The utility model discloses in, be provided with first disconnected hot cold bridge in the bridge cut-off plastic-aluminum door and window, the disconnected hot cold bridge of second, the disconnected hot cold bridge of third, the disconnected hot cold bridge of fourth, the disconnected hot cold bridge of fifth and the disconnected hot cold bridge of sixth, through setting up six sealed bridge cut-off plastic-aluminum door and window structures, be provided with first additional strengthening simultaneously, second additional strengthening and third additional strengthening, effectively strengthen bridge cut-off plastic-aluminum door and window's intensity, improve bridge cut-off plastic-aluminum door and window's anti-wind pressure ability, avoid bridge cut-off plastic-aluminum door and window to take place to warp, influence its intensity and separation performance.

Drawings

Fig. 1 is a schematic structural view of a six-way sealed bridge-cut-off aluminum-plastic composite door and window of the utility model.

Fig. 2 is a diagram of an embodiment of the six-sealing bridge-cut-off aluminum-plastic composite door and window of the present invention.

Fig. 3 is a drawing of an embodiment of a window sash of a six-way sealing bridge-cut-off aluminum-plastic composite door and window of the present invention.

Fig. 4 is a diagram of an embodiment of a window frame of a six-way sealing bridge-cut-off aluminum-plastic composite door/window of the present invention.

In the drawings: 1. a window sash; 2. a window frame; 3. a third heat-breaking cold bridge; 4. a fourth heat-breaking cold bridge; 5. a fifth broken hot and cold bridge; 6. a sixth hot and cold bridge is cut off; 7. a first heat-breaking cold bridge; 8. a second adiabatic cold bridge; 11. an outer aluminum fan frame; 12. an inner aluminum fan frame; 13. a sash pressing member; 21. an outer aluminum window frame; 22. an inner aluminum window frame; 23. window frame compresses tightly the piece.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

Referring to fig. 1 to 4, a six-sealing bridge-cut-off aluminum-plastic composite door/window is shown, which includes:

frame 2 and casement 1, frame 2 and 1 swing joint of casement, frame 2 includes: locate the outer aluminium window frame 21 of outdoor side and locate the interior aluminium window frame 22 of indoor side, casement 1 includes: an outer aluminum fan frame 11 arranged at the outdoor side and an inner aluminum fan frame 12 arranged at the indoor side; the window frame 2 further includes: the window frame comprises a frame glass layer and a window frame pressing piece 23, wherein the window frame pressing piece 23 is installed on an outer aluminum window frame 21, and the frame glass layer is installed on an inner aluminum window frame 22 and is pressed through the window frame pressing piece 23; the window sash 1 further includes: the window frame comprises a sash glass layer and a sash pressing piece 13, wherein the sash pressing piece 13 is installed on an outer aluminum sash frame 11, and the sash glass layer is installed on an inner aluminum sash frame 12 and is pressed through the sash pressing piece 13;

one end of the first heat-insulation cold bridge 7 is connected with the outer aluminum window frame 21, and the other end of the first heat-insulation cold bridge 7 is connected with the inner aluminum window frame 22;

one end of the second heat-insulated cold bridge 8 is connected with the outer aluminum window frame 21, and the other end of the second heat-insulated cold bridge 8 is connected with the inner aluminum window frame 22;

one end of the third heat-insulation cold bridge 3 is connected with the outer aluminum fan frame 11, and the other end of the third heat-insulation cold bridge 3 is connected with the inner aluminum fan frame 12;

one end of the fourth heat-insulation cold bridge 4 is connected with the outer aluminum fan frame 11, and the other end of the fourth heat-insulation cold bridge 4 is connected with the inner aluminum fan frame 12;

one end of the fifth heat-insulation cold bridge 5 is connected with the outer aluminum fan frame 11, and the other end of the fifth heat-insulation cold bridge 5 is connected with the inner aluminum fan frame 12;

and a sixth heat-insulation cold bridge 6, wherein one end of the sixth heat-insulation cold bridge 6 is connected with the outer aluminum fan frame 11, and the other end of the sixth heat-insulation cold bridge 6 is connected with the inner aluminum fan frame 12.

Further, in a preferred embodiment, the window frame 2 is provided with a first window frame side frame and a window frame middle frame, the window sash 1 is provided with a first window sash side frame and a second window sash side frame, the first window sash side frame is movably connected with the first window frame side frame, and the second window sash side frame is movably connected with the window frame middle frame.

Further, in a preferred embodiment, the first and second adiabatic cooling bridges 7 and 8 are disposed between the outer and inner aluminum window frames 21 and 22 at the center frame of the window frame.

Further, in a preferred embodiment, the third adiabatic cold bridge 3 and the fourth adiabatic cold bridge 4 are both disposed between the outer aluminum sash frame 11 and the inner aluminum sash frame 12 at the first sash frame.

Further, in a preferred embodiment, the fifth thermal break cold bridge 5 and the sixth thermal break cold bridge 6 are both disposed between the outer aluminum sash frame 11 and the inner aluminum sash frame 12 at the second sash side frame.

Further, in a preferred embodiment, both ends of the first adiabatic cold bridge 7 are provided with a first wedge-shaped connecting part, the first adiabatic cold bridge 7 and the outer aluminum window frame 21 are connected through one first wedge-shaped connecting part, and the first adiabatic cold bridge 7 and the inner aluminum window frame 22 are connected through the other first wedge-shaped connecting part; two tip of second disconnected hot cold bridge 8 all are equipped with second wedge connecting portion, and second disconnected hot cold bridge 8 is connected through a second wedge connecting portion with outer aluminium window frame 21, and second disconnected hot cold bridge 8 is connected through another second wedge connecting portion with interior aluminium window frame 22, and the middle part of first disconnected hot cold bridge 7 is equipped with first additional strengthening.

Further, in a preferred embodiment, both ends of the third adiabatic cold bridge 3 are provided with a third wedge-shaped connecting portion, the third adiabatic cold bridge 3 and the outer aluminum fan frame 11 are connected through a third wedge-shaped connecting portion, and the third adiabatic cold bridge 3 and the inner aluminum fan frame 12 are connected through another third wedge-shaped connecting portion; both ends of the fourth heat-insulated cold bridge 4 are provided with fourth wedge-shaped connecting parts, the fourth heat-insulated cold bridge 4 is connected with the outer aluminum fan frame 11 through one fourth wedge-shaped connecting part, and the fourth heat-insulated cold bridge 4 is connected with the inner aluminum fan frame 12 through the other fourth wedge-shaped connecting part; and second reinforcing structures are arranged in the middle of the third heat-breaking cold bridge 3 and the middle of the fourth heat-breaking cold bridge 4.

Further, in a preferred embodiment, both ends of the fifth adiabatic cooling bridge 5 are provided with fifth wedge-shaped connecting parts, the fifth adiabatic cooling bridge 5 and the outer aluminum fan frame 11 are connected through one fifth wedge-shaped connecting part, and the fifth adiabatic cooling bridge 5 and the inner aluminum fan frame 12 are connected through the other fifth wedge-shaped connecting part; both ends of the sixth heat-insulation cold bridge 6 are provided with sixth wedge-shaped connecting parts, the sixth heat-insulation cold bridge 6 is connected with the outer aluminum fan frame 11 through one sixth wedge-shaped connecting part, and the sixth heat-insulation cold bridge 6 is connected with the inner aluminum fan frame 12 through the other sixth wedge-shaped connecting part; and a third reinforcing structure is arranged in the middle of the fifth heat-insulation cold bridge 5 and the middle of the sixth heat-insulation cold bridge 6.

Further, in a preferred embodiment, each of the second reinforcing structures includes: the first connecting plate and the first reinforcing plate are arranged in parallel, one end of each first transverse plate is connected with the first connecting plate, the other end of each first transverse plate is connected with the first reinforcing plate, and the first connecting plate, the first reinforcing plate and any two adjacent first transverse plates surround to form an isosceles trapezoid structure.

Further, in a preferred embodiment, each of the third reinforcing structures includes: the connecting plate, the second reinforcing plate and any two adjacent second transverse plates are encircled to form an isosceles trapezoid structure.

The above is merely an example of the preferred embodiments of the present invention, and the embodiments and the protection scope of the present invention are not limited thereby.

The utility model discloses still have following embodiment on above-mentioned basis:

in a further embodiment of the present invention, the window frame 2 and the window sash 1 are connected by rotation, and the outdoor side of the outer aluminum sash frame 11 is operatively supported by the outer aluminum window frame 21.

In a further embodiment of the present invention, the window frame 2 and the window sash 1 are connected in a sliding manner, and the outer aluminum sash frame 11 is operable to slide on the outer aluminum window frame 21.

The utility model discloses a in the further embodiment, be provided with first disconnected hot cold bridge 7, the disconnected hot cold bridge 8 of second, the disconnected hot cold bridge 3 of third, the disconnected hot cold bridge 4 of fourth, the disconnected hot cold bridge 5 of fifth and the disconnected hot cold bridge 6 of sixth in the bridge cut-off aluminum-plastic door and window, through setting up six sealed bridge cut-off aluminum-plastic door and window structures, effectively prevent the production of air convection, strengthen door and window's thermal insulation performance.

The utility model discloses a in the further embodiment, be provided with first disconnected hot cold bridge 7, the disconnected hot cold bridge 8 of second, the disconnected hot cold bridge 3 of third, the disconnected hot cold bridge 4 of fourth, the disconnected hot cold bridge 5 of fifth and the disconnected hot cold bridge 6 of sixth in the bridge cut-off aluminum-plastic door and window, through setting up six sealed bridge cut-off aluminum-plastic door and window structures, effectively strengthen the separation performance of bridge cut-off aluminum-plastic door and window, strengthen bridge cut-off aluminum-plastic door and window choke, the ability that blocks water, guarantee that bridge cut-off aluminum-plastic door and window has higher separation performance.

The utility model discloses a further embodiment, bridge cut-off plastic-aluminum door and window's window form thickness is no longer than 80mm, and the selection material is frivolous, and greatly reduced door and window's thickness degree increases the field of vision broad, effectively alleviates the burden to the wall body, and is more pleasing to the eye simultaneously.

The utility model discloses a further embodiment, be provided with first disconnected hot cold bridge 7 in the bridge cut-off plastic-aluminum door and window, second disconnected hot cold bridge 8, third disconnected hot cold bridge 3, fourth disconnected hot cold bridge 4, fifth disconnected hot cold bridge 5 and sixth disconnected hot cold bridge 6, through setting up six sealed bridge cut-off plastic-aluminum door and window structures, be provided with first additional strengthening simultaneously, second additional strengthening and third additional strengthening, effectively strengthen bridge cut-off plastic-aluminum door and window's intensity, improve bridge cut-off plastic-aluminum door and window's anti-wind pressure ability, avoid bridge cut-off plastic-aluminum door and window to take place to warp, influence its intensity and separation performance.

The utility model discloses a in the further embodiment, first additional strengthening is the right trapezoid structure, effectively strengthens sealing performance and the window form intensity of bridge cut-off aluminum-plastic door and window.

The utility model discloses a in the further embodiment, second additional strengthening and third additional strengthening are formed by a plurality of isosceles trapezoid arrangements, and a plurality of isosceles trapezoid's width is the same, effectively strengthens sealing performance and window form intensity of bridge cut-off aluminum-plastic door and window.

The utility model discloses a further embodiment, through increasing the interval of two arbitrary adjacent first diaphragms on the second additional strengthening, increase the quantity of first diaphragm, can effectively increase bridge cut-off aluminum-plastic door and window's intensity, improve bridge cut-off aluminum-plastic door and window's anti-wind pressure, anti deformability.

The utility model discloses a further embodiment, through increasing the interval of two arbitrary adjacent second diaphragms on the third additional strengthening, increase the quantity of second diaphragm, can effectively increase bridge cut-off aluminum-plastic door and window's intensity, improve bridge cut-off aluminum-plastic door and window's anti-wind pressure, anti deformability.

The above is only a preferred embodiment of the present invention, and not intended to limit the scope of the invention, and it should be appreciated by those skilled in the art that various equivalent substitutions and obvious changes made in the specification and drawings should be included within the scope of the present invention.

Claims (10)

1. The utility model provides a compound door and window of six sealed bridge cut-off aluminium-plastic which characterized in that includes:

the window comprises a window frame (2) and a window sash (1), wherein the window frame (2) is movably connected with the window sash (1), and the window frame (2) comprises: locate outer aluminium window frame (21) of outdoor side and locate indoor side's interior aluminium window frame (22), casement (1) includes: an outer aluminum fan frame (11) arranged at the outdoor side and an inner aluminum fan frame (12) arranged at the indoor side; the window frame (2) further comprises: the window frame comprises a frame glass layer and a window frame pressing piece (23), wherein the window frame pressing piece (23) is installed on the outer aluminum window frame (21), and the frame glass layer is installed on the inner aluminum window frame (22) and pressed through the window frame pressing piece (23); the sash (1) further comprises: the window frame comprises a sash glass layer and a sash pressing piece (13), wherein the sash pressing piece (13) is installed on the outer aluminum sash frame (11), and the sash glass layer is installed on the inner aluminum sash frame (12) and pressed through the sash pressing piece (13);

one end of the first heat-insulation cold bridge (7) is connected with the outer aluminum window frame (21), and the other end of the first heat-insulation cold bridge (7) is connected with the inner aluminum window frame (22);

one end of the second heat-insulation cold bridge (8) is connected with the outer aluminum window frame (21), and the other end of the second heat-insulation cold bridge (8) is connected with the inner aluminum window frame (22);

one end of the third heat-insulation cold bridge (3) is connected with the outer aluminum fan frame (11), and the other end of the third heat-insulation cold bridge (3) is connected with the inner aluminum fan frame (12);

one end of the fourth heat-insulation cold bridge (4) is connected with the outer aluminum fan frame (11), and the other end of the fourth heat-insulation cold bridge (4) is connected with the inner aluminum fan frame (12);

one end of the fifth heat-insulation cold bridge (5) is connected with the outer aluminum fan frame (11), and the other end of the fifth heat-insulation cold bridge (5) is connected with the inner aluminum fan frame (12);

and a sixth heat-insulation cold bridge (6), wherein one end of the sixth heat-insulation cold bridge (6) is connected with the outer aluminum fan frame (11), and the other end of the sixth heat-insulation cold bridge (6) is connected with the inner aluminum fan frame (12).

2. The six-sealing bridge-cutoff aluminum-plastic composite door and window as claimed in claim 1, wherein the window frame (2) is provided with a first window frame side frame and a window frame middle frame, the window sash (1) is provided with a first window sash side frame and a second window sash side frame, the first window sash side frame is movably connected with the first window frame side frame, and the second window sash side frame is movably connected with the window frame middle frame.

3. The six-sealing bridge-cut-off aluminum-plastic composite door window according to claim 2, characterized in that the first and second heat-cut-off cold bridges (7, 8) are both arranged between the outer and inner aluminum window frames (21, 22) at the window frame center.

4. The six-sealing bridge-cut-off aluminum-plastic composite door window according to claim 2, characterized in that the third heat-cut-off cold bridge (3) and the fourth heat-cut-off cold bridge (4) are both arranged between the outer aluminum sash frame (11) and the inner aluminum sash frame (12) at the first sash side frame.

5. The six-sealing bridge-cutoff aluminum-plastic composite door and window according to claim 2, characterized in that the fifth heat-cutoff cold bridge (5) and the sixth heat-cutoff cold bridge (6) are both arranged between the outer aluminum sash frame (11) and the inner aluminum sash frame (12) at the second sash side frame.

6. The six-sealing bridge-cutoff aluminum-plastic composite door and window as claimed in claim 3, characterized in that both ends of the first heat-cutoff cold bridge (7) are provided with a first wedge-shaped connecting part, the first heat-cutoff cold bridge (7) and the outer aluminum window frame (21) are connected through one first wedge-shaped connecting part, and the first heat-cutoff cold bridge (7) and the inner aluminum window frame (22) are connected through the other first wedge-shaped connecting part; two tip of second disconnected hot cold bridge (8) all are equipped with second wedge connecting portion, second disconnected hot cold bridge (8) with outer aluminium window frame (21) is through one second wedge connecting portion connect, second disconnected hot cold bridge (8) with interior aluminium window frame (22) is through another second wedge connecting portion connect, and the middle part of first disconnected hot cold bridge (7) is equipped with first additional strengthening.

7. The six-sealing broken-bridge aluminum-plastic composite door and window as claimed in claim 4, characterized in that both ends of the third broken-heat cold bridge (3) are provided with a third wedge-shaped connecting portion, the third broken-heat cold bridge (3) and the outer aluminum sash frame (11) are connected through one of the third wedge-shaped connecting portions, and the third broken-heat cold bridge (3) and the inner aluminum sash frame (12) are connected through the other third wedge-shaped connecting portion; the two ends of the fourth heat-insulated cold bridge (4) are respectively provided with a fourth wedge-shaped connecting part, the fourth heat-insulated cold bridge (4) is connected with the outer aluminum fan frame (11) through one fourth wedge-shaped connecting part, and the fourth heat-insulated cold bridge (4) is connected with the inner aluminum fan frame (12) through the other fourth wedge-shaped connecting part; and the middle parts of the third heat-insulated cold bridge (3) and the fourth heat-insulated cold bridge (4) are respectively provided with a second reinforcing structure.

8. The six-sealing bridge-cutoff aluminum-plastic composite door and window as claimed in claim 5, characterized in that both ends of the fifth heat-cutoff cold bridge (5) are provided with a fifth wedge-shaped connecting part, the fifth heat-cutoff cold bridge (5) and the outer aluminum sash frame (11) are connected through one fifth wedge-shaped connecting part, and the fifth heat-cutoff cold bridge (5) and the inner aluminum sash frame (12) are connected through the other fifth wedge-shaped connecting part; the two end parts of the sixth heat-breaking cold bridge (6) are respectively provided with a sixth wedge-shaped connecting part, the sixth heat-breaking cold bridge (6) is connected with the outer aluminum fan frame (11) through one sixth wedge-shaped connecting part, and the sixth heat-breaking cold bridge (6) is connected with the inner aluminum fan frame (12) through the other sixth wedge-shaped connecting part; and a third reinforcing structure is arranged in the middle of the fifth heat-breaking cold bridge (5) and the sixth heat-breaking cold bridge (6).

9. The six-seal bridge-cut-off aluminum-plastic composite door window of claim 7, wherein each of the second reinforcing structures comprises: the connecting structure comprises a first connecting plate, a first reinforcing plate and a plurality of first transverse plates, wherein the first connecting plate and the first reinforcing plates are arranged in parallel, one end of each first transverse plate is connected with the first connecting plate, the other end of each first transverse plate is connected with the first reinforcing plates, and the first connecting plate, the first reinforcing plates and any adjacent two first transverse plates are encircled to form an isosceles trapezoid structure.

10. The six-seal bridge-cut-off aluminum-plastic composite door window of claim 8, wherein each of the third reinforcing structures comprises: the second connecting plate, a second reinforcing plate and a plurality of second diaphragm, the second connecting plate with second reinforcing plate parallel arrangement, the one end of each second diaphragm with the second connecting plate is connected, the other end of each second diaphragm with the second reinforcing plate is connected, the second connecting plate the second reinforcing plate with arbitrary adjacent two the second diaphragm surrounds and forms isosceles trapezoid structure.

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