CN211549329U - High energy-saving aluminum plastic aluminum composite door and window sealing structure - Google Patents

Abstract

The utility model provides a high energy-conserving plastic-aluminum aluminium composite door and window seals structure, include: the casement window comprises a casement window frame and a casement window, wherein the casement window frame consists of two aluminum profile structures I and a plastic profile structure I, and the plastic profile structure I is arranged in the middle of the two aluminum profile structures I; the casement window consists of two aluminum profile structures II and a plastic profile structure II, wherein the plastic profile structure II is arranged in the middle of the two aluminum profile structures II; a sealing strip assembly notch I is formed in the middle of one side, close to the casement, of the plastic profile structure I, and a sealing rubber strip structure I is connected into the sealing strip assembly notch I in a matched mode; a sealing strip assembly notch II is formed in the middle of one side, close to the flat-open frame, of the plastic profile structure II, and a sealing rubber strip structure II is connected into the sealing strip assembly notch II in a matched mode; and the sealing rubber strip structure II is in contact connection with the sealing rubber strip structure I. The utility model discloses the appearance is pleasing to the eye, and energy-conserving sound insulation performance is superior, and bulk strength is high, long service life, and processing technology is convenient, and supporting performance is good, and comprehensive sexual valence relative altitude.

Description

High energy-saving aluminum plastic aluminum composite door and window sealing structure

Technical Field

The utility model relates to a door and window field for the building especially relates to a high energy-conserving plastic-aluminum aluminium composite door and window seals structure.

Background

The aluminum-plastic-aluminum composite door and window well combines the advantages of the plastic section and the aluminum alloy section to form complementary advantages and has better applicability. The traditional aluminum-plastic-aluminum composite door and window has the problems of low strength, poor energy-saving and sound-insulating performance, short service life and the like when being applied to the market. Particularly, the traditional aluminum-plastic-aluminum composite side-hung door window has the problems of poor sealing, easy generation of gaps, short sealing service life and the like at the sealing position of a middle frame section and a sash section.

Accordingly, in view of the above, it is desirable to provide a novel composite door and window sealing structure to overcome the deficiencies of the prior art.

SUMMERY OF THE UTILITY MODEL

According to the technical problems, the sealing structure of the aluminum-plastic-aluminum composite door and window is high in energy saving. The utility model discloses mainly utilize plastic section bar and aluminum alloy ex-trusions to combine together and use, adopt special middle seal structure when improving whole window seal energy-conservation, all have the improvement to door and window's durable integrity, stability, form dual fail-safe structure to make door and window have longer life. The utility model discloses a technical means as follows:

the utility model provides a high energy-conserving plastic-aluminum aluminium composite door and window seal structure, includes: the casement window comprises a casement window frame and a casement window leaf, wherein the casement window leaf and the casement window leaf are connected in a matched mode;

the horizontally-opened frame is composed of two aluminum profile structures I and a plastic profile structure I, and the plastic profile structure I is arranged in the middle of the two aluminum profile structures I; the casement window consists of two aluminum profile structures II and a plastic profile structure II, wherein the plastic profile structure II is arranged in the middle of the two aluminum profile structures II;

a sealing strip assembling notch I is formed in the middle of one side, close to the casement, of the plastic profile structure I, and a sealing rubber strip structure I is connected into the sealing strip assembling notch I in a matched mode; a sealing strip assembling notch II is formed in the middle of one side, close to the flat-open frame, of the plastic section structure II, and a sealing rubber strip structure II is connected into the sealing strip assembling notch II in a matched mode; the sealing rubber strip structure II is in contact connection with the sealing rubber strip structure I;

the section of the sealing strip assembling notch I is C-shaped, and an opening horizontally faces the casement fan; one end of an opening of the sealing strip assembling notch I is provided with an inward bent L-shaped section, and the other end of the opening is provided with a T-shaped section;

an n-shaped section bar which is vertically arranged at 90 degrees is arranged on one side of the sealing rubber strip structure I, and a cavity I formed by the section bar with a certain wall thickness is arranged in the middle of the n-shaped section bar; u-shaped grooves are formed in the upper end and the lower end of the n-shaped section and are respectively located on the upper side and the lower side of the cavity I; the sealing strip assembly notch I is connected with the sealing rubber strip structure I in a locking mode through the clamping of the upper end and the lower end; the other side of the sealing rubber strip structure I is at least provided with a cavity I, and the section of the outer profile of the cavity I in contact connection with the sealing rubber strip structure II is arc-shaped or straight;

the section of the sealing strip assembling groove opening II is in an arrow shape or a C shape, and an opening inclines towards the flat opening frame; two sides of the opening end of the sealing strip assembling notch II are provided with inward linear profiles;

the section shape of the section bar on one side, in contact connection with the sealing rubber strip structure I, of the sealing rubber strip structure II is a straight line or a 'return' shape with a cavity II; the section bar of II opposite sides of joint strip structure is the arrow point shape, and the joint income in the sealing strip assembly notch II, will joint strip structure II with II locking connections in the sealing strip assembly notch.

Further, the sealing rubber strip structure I is a 0-shaped structure or a rectangular structure, wherein the cross section of the chamber I is 0-shaped or rectangular.

Further, when the sealing rubber strip structure I is a 0-type structure, the height of the sealing rubber strip structure I after assembly is 3-20 mm.

Further, when the sealing rubber strip structure I is a rectangular structure, the height of the sealing rubber strip structure I after assembly is 3-20 mm.

Further, the sealing rubber strip structure II is a 0-shaped structure, a rectangular structure or a flat structure, wherein the cross section of the cavity II is 0-shaped or rectangular.

Further, when the sealing rubber strip structure II is a 0-type structure, the height of the sealing rubber strip structure II after assembly is 1-10 mm.

Further, when the sealing rubber strip structure II is a rectangular structure, the height of the sealing rubber strip structure II after assembly is 1-10 mm.

Further, when the sealing rubber strip structure II is a flat structure, the height of the sealing rubber strip structure II after assembly is 1-10 mm.

Furthermore, the width of the notch of the sealing strip assembly notch I is 3-20mm, and the depth of the notch is 1-15 mm.

Furthermore, the width of the notch of the sealing strip assembling notch II is 3-15mm, and the depth of the notch is 1-10 mm.

Compared with the prior art, the utility model has the advantages of it is following:

1. the appearance is beautiful:

the appearance is graceful, and the design is nimble, satisfies different customers' demand. The requirements of the building opening on doors and windows are more easily met.

2. The energy-saving sound insulation performance is excellent:

and a special intermediate sealing structure is adopted, so that the energy-saving performance is excellent.

3. The overall strength is high:

the advantages of the plastic section and the aluminum alloy section are well combined to form advantage complementation, and the plastic section and the aluminum alloy section have higher strength.

4. The service life is long:

the special middle sealing structure is adopted to improve the whole window sealing energy saving, simultaneously improve the durability integrity and the stability of the door and the window, and form a double-safety structure, thereby leading the door and the window to have longer service life.

5. The processing technology is convenient and fast:

the process reliability is strong, and compared with aluminum-plastic-aluminum composite doors and windows with other structures, the aluminum-plastic-aluminum composite door and window has a more mature and convenient processing process.

6. The matching performance is good:

the building has better matching performance, is easy to meet the requirements of buildings of different grades and different forms, and has more excellent matching performance.

7. The comprehensive performance-price ratio is high:

after the door and window is processed by adopting a special middle sealing structure, the cost is low, the performance is good, and the comprehensive cost performance is higher.

Based on the reason above, the utility model discloses can extensively promote in fields such as door and window for the building, domestic door and window.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a matching view of the aluminum-plastic-aluminum section frame and sash of the present invention.

Fig. 2 is a schematic structural diagram of the middle plastic profile structure i of the present invention.

Fig. 3 is a schematic structural diagram of the middle plastic profile structure ii of the present invention.

Fig. 4 is the sealing structure diagram of the aluminum-plastic-aluminum composite door and window of the present invention (type 0 on the frame, type 0 on the sash).

Fig. 5 is the sealing structure diagram of the aluminum-plastic-aluminum composite door and window of the present invention (rectangle on frame, 0 on sash).

Fig. 6 is the sealing structure of the aluminum-plastic-aluminum composite door and window of the present invention (type 0 on the frame, rectangular on the sash).

Fig. 7 is the sealing structure of the aluminum-plastic-aluminum composite door and window of the present invention (rectangle on frame, rectangle on sash).

Fig. 8 is the sealing structure diagram (rectangular on the frame, flat on the sash) of the aluminum-plastic-aluminum composite door and window of the present invention.

Fig. 9 is the sealing structure diagram (type 0 on the frame, flat on the sash) of the aluminum-plastic-aluminum composite door and window of the present invention.

Fig. 10 is a schematic structural diagram of a joint strip structure i of the present invention, wherein (a) and (b) are 0 type and (c) and (d) are rectangular.

Fig. 11 is a schematic structural diagram of a middle joint strip structure ii of the present invention, wherein (a) is a 0-type, (b) is a rectangular, and (c) is a flat.

In the figure: 1. an aluminum profile structure I; 2. a plastic profile structure I; 3. a sealing strip assembling notch I; 4. a sealing strip assembling notch II; 5. a plastic profile structure II; 6. an aluminum profile structure II; 7. a sealing rubber strip structure I; 8. joint strip structure II.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-11, the utility model provides a high energy-saving aluminum-plastic-aluminum composite door and window sealing structure, include: the casement window comprises a casement window frame and a casement window leaf, wherein the casement window leaf and the casement window leaf are connected in a matched mode;

the horizontally-opened frame is composed of two aluminum profile structures I1 and a plastic profile structure I2, wherein the plastic profile structure I2 is arranged in the middle of the two aluminum profile structures I1; the casement window consists of two aluminum profile structures II 6 and a plastic profile structure II 5, wherein the plastic profile structure II 5 is arranged in the middle of the two aluminum profile structures II 6;

a sealing strip assembly notch I3 is formed in the middle of one side, close to the casement, of the plastic section structure I2, and a sealing rubber strip structure I7 is connected into the sealing strip assembly notch I3 in a matched mode; a sealing strip assembling notch II 4 is formed in the middle of one side, close to the flat-open frame, of the plastic section structure II 5, and a sealing rubber strip structure II 8 is connected into the sealing strip assembling notch II 4 in a matched mode; the sealing rubber strip structure II 8 is in contact connection with the sealing rubber strip structure I7;

the section of the sealing strip assembling notch I3 is C-shaped, and the opening of the sealing strip assembling notch I faces the casement horizontally; an L-shaped section bent inwards is arranged at one end of an opening of the sealing strip assembly notch I3, and a T-shaped section is arranged at the other end of the opening;

an n-shaped section bar which is vertically arranged at 90 degrees is arranged on one side of the sealing rubber strip structure I7, and a cavity I formed by the section bar with a certain wall thickness is arranged in the middle of the n-shaped section bar; u-shaped grooves are formed in the upper end and the lower end of the n-shaped section and are respectively located on the upper side and the lower side of the cavity I; the L-shaped section bar is clamped into the U-shaped groove at the upper end, the T-shaped section bar is clamped into the U-shaped groove at the lower end, and the sealing strip assembly notch I3 is connected with the sealing rubber strip structure I7 in a locking mode through clamping of the upper end and the lower end; the other side of the sealing rubber strip structure I7 is at least provided with a cavity I, and the section of the outer profile of the cavity I in contact connection with the sealing rubber strip structure II 8 is arc-shaped or straight;

the section of the sealing strip assembling groove opening II 4 is in an arrow shape or a C shape, and the opening is inclined towards the flat opening frame; two sides of the opening end of the sealing strip assembling notch II 4 are provided with inward linear profiles;

the section shape of the section bar on one side, in contact connection with the sealing rubber strip structure I7, of the sealing rubber strip structure II 8 is a straight line or a square-shaped section bar with a cavity II; the section bar of II 8 opposite sides of joint strip structure is the arrow point shape, and the joint income in II 4 of sealing strip assembly notch, will II 8 of joint strip structure with II 4 locking connections in the sealing strip assembly notch.

Preferably, the sealing rubber strip structure I7 is a 0-shaped structure or a rectangular structure, wherein the cross section of the chamber I is 0-shaped or rectangular.

Preferably, when the sealing rubber strip structure I7 is a 0-type structure, the height of the sealing rubber strip structure I7 after assembly is 3-20 mm.

Preferably, when the sealing rubber strip structure I7 is a rectangular structure, the height of the sealing rubber strip structure I7 after assembly is 3-20 mm.

Preferably, the sealing rubber strip structure II 8 is a 0-shaped structure, a rectangular structure or a flat structure, wherein the cross section of the cavity II is 0-shaped or rectangular.

Preferably, when the sealing rubber strip structure II 8 is a 0-type structure, the height of the sealing rubber strip structure II 8 after assembly is 1-10 mm.

Preferably, when the sealing rubber strip structure II 8 is a rectangular structure, the height of the sealing rubber strip structure II 8 after assembly is 1-10 mm.

Preferably, when the sealing rubber strip structure II 8 is a flat structure, the height of the sealing rubber strip structure II 8 after assembly is 1-10 mm.

Preferably, the width of the notch of the sealing strip assembly notch I3 is 3-20mm, and the depth of the notch is 1-15 mm.

Preferably, the width of the notch of the sealing strip assembly notch II 4 is 3-15mm, and the depth of the notch is 1-10 mm.

Example 1

As shown in fig. 4, in this embodiment, the sealing rubber strip structure i 7 on the casement frame is a 0-type structure, two cavities i are provided, the cross-sectional shape is a 0-type, and the cross-sectional shape of the outer side profile on the right side of the sealing rubber strip structure i 7 is an arc. Sealing rubber strip structure II 8 on the flat-open fan is 0 type structure, and the cross sectional shape of cavity II is 0 type, and sealing rubber strip structure II 8's left side section bar is "back" shape promptly, and the leftmost side is the arc. The contact position of the sealing rubber strip structure I7 and the sealing rubber strip structure II 8 is in contact connection with an arc line. The height of joint strip structure I7 after the assembly is 3mm, and the height of joint strip structure II 8 after the assembly is 1 mm.

In this embodiment, the width of the notch of the sealing strip assembly notch I3 is 3mm, and the depth of the notch is 1 mm. The width of the notch of the sealing strip assembly notch II 4 is 3mm, and the depth of the notch is 1 mm.

Example 2

As shown in fig. 5, in this embodiment, the sealing rubber strip structure i 7 on the casement frame is a rectangular structure, and is provided with two chambers i, the cross-sectional shape is a rectangular shape, and the cross-sectional shape of the outer side profile on the right side of the sealing rubber strip structure i 7 is a straight line. Sealing rubber strip structure II 8 on the flat-open fan is 0 type structure, and the cross sectional shape of cavity II is 0 type, and sealing rubber strip structure II 8's left side section bar is "back" shape promptly, and the leftmost side is the arc. The contact position of the sealing rubber strip structure I7 and the sealing rubber strip structure II 8 is in contact connection with an arc line through a straight line. The height of joint strip structure I7 after the assembly is 20mm, and the height of joint strip structure II 8 after the assembly is 10 mm.

In this embodiment, the width of the notch of the sealing strip assembly notch I3 is 3mm, and the depth of the notch is 1 mm. The width of the notch of the sealing strip assembly notch II 4 is 3mm, and the depth of the notch is 1 mm.

Example 3

As shown in fig. 6, in this embodiment, the sealing rubber strip structure i 7 on the casement frame is a 0-type structure, two cavities i are provided, the cross-sectional shape is a 0-type, and the cross-sectional shape of the outer side profile on the right side of the sealing rubber strip structure i 7 is an arc. The sealing rubber strip structure II 8 on the casement window is of a rectangular structure, the cross section of the cavity II is of a rectangular shape, the left section of the sealing rubber strip structure II 8 is of a 'return' shape, and the leftmost side of the sealing rubber strip structure II is a straight line. The contact position of the sealing rubber strip structure I7 and the sealing rubber strip structure II 8 is in contact connection with a straight line through an arc line. The height of joint strip structure I7 after the assembly is 20mm, and the height of joint strip structure II 8 after the assembly is 10 mm.

In this embodiment, the width of the notch of the sealing strip assembly notch I3 is 12mm, and the depth of the notch is 8 mm. The width of the notch of the sealing strip assembly notch II 4 is 9mm, and the depth of the notch is 5 mm.

Example 4

As shown in fig. 7, in this embodiment, the sealing rubber strip structure i 7 on the casement frame is a rectangular structure, and is provided with two chambers i, the cross-sectional shape is a rectangular shape, and the cross-sectional shape of the outer side profile on the right side of the sealing rubber strip structure i 7 is a straight line. The sealing rubber strip structure II 8 on the casement window is of a rectangular structure, the cross section of the cavity II is of a rectangular shape, the left section of the sealing rubber strip structure II 8 is of a 'return' shape, and the leftmost side of the sealing rubber strip structure II is a straight line. The contact position of the sealing rubber strip structure I7 and the sealing rubber strip structure II 8 is in linear and linear contact connection. The height of joint strip structure I7 after the assembly is 12mm, and the height of joint strip structure II 8 after the assembly is 5 mm.

In this embodiment, the width of the notch of the sealing strip assembly notch I3 is 12mm, and the depth of the notch is 8 mm. The width of the notch of the sealing strip assembly notch II 4 is 9mm, and the depth of the notch is 5 mm.

Example 5

As shown in fig. 8, in this embodiment, the sealing rubber strip structure i 7 on the casement frame is a rectangular structure, three chambers i are provided, the cross-sectional shape is a rectangular shape, and the cross-sectional shape of the outer side profile on the right side of the sealing rubber strip structure i 7 is a straight line. The sealing rubber strip structure II 8 on the casement window is of a flat structure and has no cavity, namely, the left section bar of the sealing rubber strip structure II 8 is flat, and the leftmost side of the sealing rubber strip structure II 8 is a straight line. The contact position of the sealing rubber strip structure I7 and the sealing rubber strip structure II 8 is in linear and linear contact connection. The height of joint strip structure I7 after the assembly is 12mm, and the height of joint strip structure II 8 after the assembly is 5 mm.

In this embodiment, the width of the notch of the sealing strip assembly notch I3 is 20mm, and the depth of the notch is 15 mm. The width of the notch of the sealing strip assembly notch II 4 is 15mm, and the depth of the notch is 10 mm.

Example 6

As shown in fig. 9, in this embodiment, the sealing rubber strip structure i 7 on the casement frame is a 0-type structure, two cavities i are provided, the cross-sectional shape is a 0-type, and the cross-sectional shape of the outer side profile on the right side of the sealing rubber strip structure i 7 is an arc. The sealing rubber strip structure II 8 on the casement window is of a flat structure and has no cavity, namely, the left section bar of the sealing rubber strip structure II 8 is flat, and the leftmost side of the sealing rubber strip structure II 8 is a straight line. The contact position of the sealing rubber strip structure I7 and the sealing rubber strip structure II 8 is in arc-shaped and linear contact connection. The height of joint strip structure I7 after the assembly is 3mm, and the height of joint strip structure II 8 after the assembly is 1 mm.

In this embodiment, the width of the notch of the sealing strip assembly notch I3 is 20mm, and the depth of the notch is 15 mm. The width of the notch of the sealing strip assembly notch II 4 is 15mm, and the depth of the notch is 10 mm.

The utility model discloses a high energy-conserving compound flat-open door and window of aluminium-plastic aluminium seals the structure, mainly includes aluminium-plastic aluminium composite section bar, supplementary section bar, materials and cooperation structures such as glass, five metals annex.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a high energy-conserving plastic-aluminum aluminium composite door and window seal structure which characterized in that includes: the casement window comprises a casement window frame and a casement window leaf, wherein the casement window leaf and the casement window leaf are connected in a matched mode;

the horizontally-opened frame is composed of two aluminum profile structures I (1) and a plastic profile structure I (2), wherein the plastic profile structure I (2) is arranged in the middle of the two aluminum profile structures I (1); the casement window consists of two aluminum profile structures II (6) and a plastic profile structure II (5), wherein the plastic profile structure II (5) is arranged in the middle of the two aluminum profile structures II (6);

a sealing strip assembly notch I (3) is formed in the middle of one side, close to the casement, of the plastic profile structure I (2), and a sealing rubber strip structure I (7) is connected into the sealing strip assembly notch I (3) in a matched mode; a sealing strip assembly notch II (4) is formed in the middle of one side, close to the flat-open frame, of the plastic section structure II (5), and a sealing rubber strip structure II (8) is connected in the sealing strip assembly notch II (4) in a matched mode; the sealing rubber strip structure II (8) is in contact connection with the sealing rubber strip structure I (7);

the section of the sealing strip assembling notch I (3) is C-shaped, and the opening of the sealing strip assembling notch I horizontally faces the casement fan; one end of an opening of the sealing strip assembly notch I (3) is provided with an inward bent L-shaped section, and the other end of the opening is provided with a T-shaped section;

an n-shaped section bar which is vertically arranged at 90 degrees is arranged on one side of the sealing rubber strip structure I (7), and a cavity I formed by the section bar with a certain wall thickness is arranged in the middle of the n-shaped section bar; u-shaped grooves are formed in the upper end and the lower end of the n-shaped section and are respectively located on the upper side and the lower side of the cavity I; the L-shaped section bar is clamped into the U-shaped groove at the upper end, the T-shaped section bar is clamped into the U-shaped groove at the lower end, and the sealing strip assembly notch I (3) is connected with the sealing rubber strip structure I (7) in a locking mode through clamping of the upper end and the lower end; the other side of the sealing rubber strip structure I (7) is at least provided with a cavity I, and the section of the outer profile of the cavity I in contact connection with the sealing rubber strip structure II (8) is arc-shaped or straight;

the section of the sealing strip assembling groove opening II (4) is in an arrow shape or a C shape, and an opening inclines towards the flat opening frame; two sides of the opening end of the sealing strip assembling notch II (4) are provided with inward linear profiles;

the section shape of the section bar on one side, which is in contact connection with the sealing rubber strip structure I (7), on the sealing rubber strip structure II (8) is a straight line or a 'return' shape with a cavity II; the section bar of II (8) opposite sides of joint strip structure is the arrow point shape, and the joint inserts in II (4) of sealing strip assembly notch, will II (8) of joint strip structure with II (4) locking connection in II (4) of sealing strip assembly notch.

2. The high energy-saving aluminum-plastic-aluminum composite door and window sealing structure as claimed in claim 1, wherein the sealing rubber strip structure I (7) is a 0-shaped structure or a rectangular structure, and the cross-sectional shape of the chamber I is 0-shaped or rectangular.

3. The high energy-saving aluminum-plastic-aluminum composite door and window sealing structure as claimed in claim 2, wherein when the sealant strip structure I (7) is a 0-type structure, the height of the sealant strip structure I (7) after assembly is 3-20 mm.

4. The high energy-saving aluminum-plastic-aluminum composite door and window sealing structure as claimed in claim 2, wherein when the sealant strip structure I (7) is a rectangular structure, the height of the sealant strip structure I (7) after assembly is 3-20 mm.

5. The high energy-saving aluminum-plastic-aluminum composite door and window sealing structure as claimed in claim 1, wherein the sealant strip structure II (8) is a 0-shaped structure, a rectangular structure or a flat structure, and the cross-sectional shape of the chamber II is 0-shaped or rectangular.

6. The high energy-saving aluminum-plastic-aluminum composite door and window sealing structure as claimed in claim 5, wherein when the sealant strip structure II (8) is a 0-type structure, the height of the sealant strip structure II (8) after assembly is 1-10 mm.

7. The high energy-saving aluminum-plastic-aluminum composite door and window sealing structure as claimed in claim 5, wherein when the sealant strip structure II (8) is a rectangular structure, the height of the sealant strip structure II (8) after assembly is 1-10 mm.

8. The high energy-saving aluminum-plastic-aluminum composite door and window sealing structure as claimed in claim 5, wherein when the sealant strip structure II (8) is a flat structure, the height of the sealant strip structure II (8) after assembly is 1-10 mm.

9. The high energy saving aluminum plastic aluminum composite door and window sealing structure as claimed in claim 1, wherein the width of the groove opening of the sealing strip assembly groove opening I (3) is 3-20mm, and the depth of the groove opening is 1-15 mm.

10. The high energy saving aluminum plastic aluminum composite door and window sealing structure as claimed in claim 1, wherein the width of the groove opening of the sealing strip assembly groove opening II (4) is 3-15mm, and the depth of the groove opening is 1-10 mm.

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