CN213234699U - System door and window isobaric adhesive tape ultra-wide lapped section structure - Google Patents

Abstract

The utility model discloses a system door and window isobaric adhesive tape is wide lapped section bar structure extremely, include fan-shaped material, frame section bar, the isobaric adhesive tape of the super wide overlap joint of cavity formula and widen the glass line ball. The fan section comprises a fan indoor section and a fan outdoor section which are connected through a cavity heat insulation strip and a fan C-shaped heat insulation strip. The frame section comprises a frame indoor section and a frame outdoor section which are connected through a frame C-shaped heat insulation strip. The fan-shaped section bars and the frame-shaped section bars are combined according to a standard distance, and the centers of the formed hardware channel area and the ultra-wide lap joint area are in a staggered arrangement structure of 4-14 mm according to the section bars. The cavity heat insulation strip is closely attached to the cavity type ultra-wide lap joint isobaric adhesive tape to form an ultra-thick heat insulation medium, and 5-15 mm ultra-wide lap joint quantity is formed according to the section. The utility model discloses rational in infrastructure, effectively solve the isobaric adhesive tape and the little problem of heat insulating strip overlap joint volume, the reinforcing is to the retardation of dust rainwater, and thickening heat-proof medium is showing water proofness, gas tightness, the heat-proof quality index that promotes door and window.

Description

System door and window isobaric adhesive tape ultra-wide lapped section structure

Technical Field

The utility model relates to an aluminum alloy bridge cut-off heat-insulating door and window processing preparation field, the section bar of the door and window of the internal opening, external opening of concretely relates to system door and window isobaric adhesive tape super wide lapped section bar structure especially.

Background

The flat-open sash of the aluminum alloy bridge cut-off heat insulation door and window generally utilizes the lap joint of the isobaric adhesive tape on the frame and the heat insulation strip on the sash to realize structural sealing and exert the effects of water resistance, dust resistance, sound insulation and heat insulation, but the structural design of the traditional aluminum alloy heat insulation door and window is unreasonable, the lap joint width of the isobaric adhesive tape and the heat insulation strip is small, the lap joint effect is not good, and the performance indexes of water tightness, air tightness and heat insulation of the whole door and window are directly influenced.

Firstly, limited by the space of the frame section bar and the sash section bar when rotating relatively, the traditional section bar structure can avoid the situation that the heat insulation strip on the sash collides with the lock block on the frame and the isobaric adhesive tape on the frame collides with the outer side of the sash, the theoretical overlapping width of the isobaric adhesive tape and the heat insulation strip is very small, the traditional section bar structure can only be overlapped by 1-2mm in the direction parallel to the plane of the door and the window, and the traditional section bar structure is added with inevitable errors in the manufacturing, transporting and installing processes, so that the actual overlapping amount of the isobaric adhesive tape and the heat insulation. Meanwhile, the sectional material is limited by the sectional material structure, and no matter how the sectional shapes of the isobaric adhesive tape and the heat insulation strip are changed, the effective lap joint width cannot be increased, so that the water tightness, air tightness and heat insulation indexes of the door and window are poor.

Secondly, after the traditional sash section and frame section are combined, the formed hardware channel area of the European standard notch, the isobaric adhesive tape and the lap joint area of the heat insulation strip are basically in a center-to-center arrangement structure in the direction parallel to the plane of the door and the window, and are visually in a straight line to form a linear channel.

And thirdly, the lap joints of the isobaric adhesive tape and the heat insulation strip of the traditional section bar are of single-layer structures, so that the thickness of a heat insulation medium for isolating indoor and outdoor cold and heat conduction is very small, and the overall heat insulation effect of the door and window is directly influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a system door and window isobaric adhesive tape ultra-wide lapped section bar structure can solve above-mentioned problem.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a system door and window isobaric adhesive tape is wide lapped section bar structure, includes fan-type section bar, frame section bar, the isobaric adhesive tape of cavity formula super wide overlap joint and widens the glass line ball. The fan section comprises a fan indoor section and a fan outdoor section which are connected through a cavity heat insulation strip and a fan C-shaped heat insulation strip. The frame section comprises a frame indoor section and a frame outdoor section which are connected through a frame C-shaped heat insulation strip. The fan-shaped section bars and the frame-shaped section bars are combined according to a standard distance, and the centers of the formed hardware channel area and the ultra-wide lap joint area are in a staggered arrangement structure of 4-14 mm according to the section bars. The cavity heat insulation strip is closely attached to the cavity type ultra-wide lap joint isobaric adhesive tape to form an ultra-thick heat insulation medium, and 5-15 mm ultra-wide lap joint quantity is formed according to the section.

According to the section structure for the system door and window isobaric rubber strip ultra-wide lap joint, the sash indoor section and the sash outdoor section are of hollow structures, heat insulation strip clamping grooves are formed in the surfaces of the sash indoor section and the sash outdoor section, and the cavity heat insulation strip and the sash C-shaped heat insulation strip are arranged on the heat insulation strip clamping grooves; the frame is characterized in that the frame indoor section and the frame outdoor section are of hollow structures, heat insulation strip clamping grooves and isobaric adhesive tape clamping openings are formed in the surfaces of the frame indoor section and the frame outdoor section, the frame C-shaped heat insulation strips are installed on the heat insulation strip clamping grooves, and the cavity type ultra-wide lap joint isobaric adhesive tapes are installed on the isobaric adhesive tape clamping openings.

The section bar structure comprises a sash indoor section bar, a sash outdoor section bar, a sash outer section bar, a sash door section bar and a system door and window isobaric rubber strip, wherein the sash indoor section bar is provided with a sash European standard groove and a wire pressing groove, the frame indoor section bar is provided with a frame European standard groove, the farthest end of one side of the sash outdoor section bar, which is close to hollow glass, is a sash outdoor side broadside edge, and the farthest end of one side of the sash outdoor section bar, which is close to the sash section bar, is a frame outdoor side.

The utility model provides an isobaric adhesive tape super wide lapped section bar structure of system door and window, the heat insulating strip draw-in groove place of the indoor section bar of fan is faced outdoor side antedisplacement to the heat insulating strip draw-in groove place of the heat insulating strip draw-in groove of the indoor section bar of frame place, the heat insulating strip draw-in groove place of the outdoor section bar of fan of the heat insulating strip draw-in groove place of the outdoor section bar of frame is faced outdoor side antedisplacement, the frame European standard groove notch place of the indoor section bar of frame of nearly frame of the outdoor section bar of frame is faced fan one side antedisplacement, the European standard groove tank bottom place of the fan of the indoor section bar of nearly frame of the outdoor section bar of fan is faced fan one side indentation.

The utility model provides an isobaric adhesive tape of system door and window is wide lapped section structure, set up thermal-insulated cavity, press variable cavity and outer mouthful adhesive tape draw-in groove on the isobaric adhesive tape of the super wide overlap joint of cavity formula, press variable cavity can be oval, semi-circular, polygon, press variable cavity nearly cavity heat insulating strip one side outline to be isobaric adhesive tape binding face.

The utility model provides an isobaric adhesive tape of system door and window is super wide lapped section structure, the cavity heat insulating strip is to the convex heat insulating strip who takes the heat insulating strip cavity in frame section bar one side, the heat insulating strip cavity can be triangle-shaped cavity or arc limit triangle-shaped cavity, the outline of heat insulating strip cavity includes heat insulating strip bottom surface, heat insulating strip holding surface and heat insulating strip binding face, the heat insulating strip binding face is plane or arcwall face.

The equal-pressure rubber strip ultra-wide lapped section structure for the system doors and windows is characterized in that the hardware channel area is an area from a sector European standard groove notch to a frame European standard groove notch and between the sector European standard groove notch and the frame European standard groove notch, the ultra-wide lapped area is an area from an equal-pressure rubber strip bayonet to the bottom surface of a heat insulation strip and between the heat insulation strip and the heat insulation strip bottom surface, and the centers of the hardware channel area and the ultra-wide lapped area are in a 4-14 mm staggered arrangement structure in the plane direction of parallel doors and windows according to.

The ultra-thick heat insulation medium is located in the ultra-wide lap joint area, and forms a heat insulation medium in the direction perpendicular to the plane of the door and the window, and the heat insulation medium comprises a heat insulation strip cavity, a heat insulation strip supporting surface, a heat insulation strip binding surface, a pressure variable cavity, an isobaric adhesive strip binding surface and a pressure variable cavity near outdoor outer contour.

According to the sectional material structure for the isobaric adhesive tape ultra-wide lap joint of the system door and window, the binding surface of the heat insulation strip is tightly bound with the binding surface of the isobaric adhesive tape, and 5-15 mm ultra-wide lap joint quantity is formed in the direction parallel to the plane of the door and window according to the size of the sectional material.

The section structure is characterized in that the widened glass pressing line is of a hollow structure, the surface of one side, close to the hollow glass, of the vertical door and window is a pressing line vertical surface, the widened glass pressing line passes through the pressing line groove and is installed on the sectional material in the sash chamber, the pressing line vertical surface is aligned with the wide edge of the outer side of the sash chamber in the vertical door and window direction, the widened glass pressing line passes through the frame European standard groove and is installed on the sectional material in the frame chamber, and the pressing line vertical surface is aligned with the wide edge of the outer side of the frame chamber in the vertical door and window plane direction.

The beneficial effects of the utility model are that, through the systemic remodeling to the section bar structure, it is more reasonable to make section bar structural configuration, and each part cooperation of section bar is more harmonious, and effect full play itself. The shape design science of isobaric adhesive tape of cavity formula super wide overlap joint, cavity heat insulating strip can realize the super wide overlap joint of real laminating. The hardware channel area and the ultra-wide lap joint area are arranged in a staggered mode, so that dust and rainwater can be obviously prevented from passing through. The thickened heat insulation medium can effectively isolate indoor and outdoor cold and heat conduction. The fixing firmness of the glass can be enhanced by widening the glass pressing line. The water tightness, air tightness and heat insulation indexes of the door and window can be obviously improved under the combined action of the above effects.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a fan section of the present invention;

fig. 3 is a schematic view of a frame profile of the present invention;

fig. 4 is a schematic view of the cavity type ultra-wide lap joint equal-pressure adhesive tape of the present invention;

FIG. 5 is a schematic view of the cavity insulating strip of the present invention;

FIG. 6 is a schematic view of the connection between the widened glass pressing line and the sash profile of the present invention;

fig. 7 is a schematic view of the connection between the widened glass pressing line and the frame profile of the present invention.

Reference numbers in the figures: 1. a sash section bar; 11. a fan indoor section bar; 111. a fan European standard groove; 112. pressing a wire groove; 12. a cavity heat insulating strip; 121. a heat insulating strip cavity; 122. a bottom surface of the heat insulating strip; 123. a heat insulating strip support surface; 124. a thermal insulation strip attaching surface; 13. a fan-shaped heat insulating strip; 14. outdoor section bar of the fan; 141. the wide edge of the outer side of the fan chamber; 2. a frame section bar; 21. frame indoor section bar; 211. framing an European standard groove; 22. a frame C-shaped heat insulating strip; 23. frame outdoor profiles; 231. the wide edge of the outer side of the frame chamber; 3. a cavity type ultra-wide lap joint isobaric adhesive tape; 31. a thermally insulating cavity; 32. a pressure variable cavity; 33. isobaric adhesive tape binding surface; 34. an outer opening adhesive tape clamping groove; 4. widening the glass pressing line; 41. pressing line vertical faces; 5. a heat insulation strip clamping groove; 6. an isobaric rubber strip bayonet; 7. ultra-thick insulating media; ultra-wide lap joint amount of 8.5-15 mm; 9. hollow glass; 101. a hardware channel region; 102. an ultra-wide overlap region.

Detailed Description

The present invention will be further described with reference to the following embodiments, wherein the drawings are for illustrative purposes only and are not intended to be limiting, and some components in the drawings may be omitted, enlarged or reduced to better illustrate the embodiments of the present invention and not to represent the size of the actual product.

[ example 1 ]

As shown in figure 1, the sectional material structure for the system door and window constant-pressure rubber strip ultra-wide lap joint comprises a sash sectional material 1, a frame sectional material 2, a cavity type ultra-wide lap joint constant-pressure rubber strip 3 and a widened glass pressing line 4. The fan-shaped section bar 1 comprises a fan-shaped indoor section bar 11 and a fan-shaped outdoor section bar 14 which are connected through a cavity heat insulation strip 12 and a fan-shaped C-shaped heat insulation strip 13. The frame section bar 2 comprises a frame indoor section bar 21 and a frame outdoor section bar 23 which are connected through a frame C-shaped heat insulation strip 22. The fan indoor section bar 11 and the fan outdoor section bar 14 are of hollow structures, heat insulation strip clamping grooves 5 are formed in the surfaces of the fan indoor section bar and the fan outdoor section bar, and the cavity heat insulation strips 12 and the fan C-shaped heat insulation strips 13 are arranged on the heat insulation strip clamping grooves 5; the frame indoor section 21, the frame outdoor section 23 are hollow structure, are equipped with heat insulating strip draw-in groove 5 and isobaric adhesive tape bayonet 6 on the face, frame C shape heat insulating strip 22 is installed on heat insulating strip draw-in groove 5, the isobaric adhesive tape 3 of super wide overlap joint of cavity formula is installed on isobaric adhesive tape bayonet 6. The sash indoor section bar 11 is provided with a sash European standard groove 111 and a line pressing groove 112, the frame indoor section bar 21 is provided with a frame European standard groove 211, the farthest end of the sash outdoor section bar 14 close to the hollow glass 9 is a sash outdoor side broadside edge 141, and the farthest end of the sash outdoor section bar 23 close to the sash section bar is a frame outdoor side broadside edge 231.

As shown in fig. 2 and 3, the heat insulating strip slot 5 of the frame indoor section 21 is located at a position facing the outdoor side than the heat insulating strip slot 5 of the sash indoor section 11, and the heat insulating strip slot 5 of the frame outdoor section 23 is located at a position facing the outdoor side than the heat insulating strip slot 5 of the sash outdoor section 14, so that the installation position of the cavity type ultra-wide lap joint equal-pressure adhesive tape 3 moves forward to the outdoor side, and the mutual positions of the cavity type ultra-wide lap joint equal-pressure adhesive tape 3 and the cavity heat insulating strip 12 are more reasonable, and the close fitting is easily realized.

The near sector of the frame outdoor section bar 23 moves forward towards one side of the fan than the notch of the frame European standard groove 211 of the frame indoor section bar 21, and meanwhile, the frame C-shaped heat insulation strip 22 at the near fan side moves forward towards one side of the fan, so that the installation position of the cavity type ultra-wide lap joint equal-pressure rubber strip 3 also moves forward towards one side of the fan. Rubber product is higher unstable more, and is easy more warp, and isobaric adhesive tape 3 of cavity formula super wide overlap joint moves the back to fan one side forward, total height that can effectual reduction adhesive tape makes isobaric adhesive tape and heat insulating strip fix a position more accurately when the contact, and is more firm.

The near frame surface of the fan outdoor section bar 14 is retracted towards one side of the fan compared with the bottom of the fan European standard groove 111 of the fan indoor section bar 11, so that the width of the overlapping surface of the cavity heat insulation strip 12 and the cavity type ultra-wide overlapping isobaric adhesive tape 3 can be effectively increased.

Through the forward movement and retraction of the sash section bar 1 and the frame section bar 2, a space for mutual matching and acting of the cavity type ultra-wide lap joint equal-pressure rubber strip 3 and the cavity heat insulation strip 12 is reserved, tight fitting is realized, 5-15 mm ultra-wide lap joint amount 8 is formed, and the three indexes of water tightness, air tightness and heat insulation of the whole door and window are improved.

After the sash section bar 1 and the frame section bar 2 are combined according to a standard distance, a hardware channel area 101 and an ultra-wide lap joint area 102 are formed, the hardware channel area 101 is an area from a 111 notch of a sash European standard groove to a 211 notch of a frame European standard groove and between the notches, the ultra-wide lap joint area 102 is an area from an isobaric rubber strip bayonet 6 to a bottom surface 122 of a heat insulation strip and between the bottom surfaces, and according to the size of the section bar, the centers of the hardware channel area 101 and the ultra-wide lap joint area 102 are in a 4-14 mm staggered arrangement structure in the direction parallel to the plane of a door and a window, so that a line type arrangement structure of the centers of the traditional hardware channel area and the lap joint area is changed, a blocking effect is generated on rainwater, heat and dust, and the whole water tightness and heat insulation of.

[ example 2 ]

As shown in fig. 4, set up thermal-insulated cavity 31, press to become cavity 32 and outer mouthful of adhesive tape draw-in groove 34 on the isobaric adhesive tape 3 of super wide overlap joint of cavity formula, it can be oval, semi-circular, polygon to press to become cavity 32, it is isobaric adhesive tape binding face 34 to press to become cavity 32 nearly cavity heat insulating strip 12 one side outline. Thermal-insulated cavity 31 can reduce thermal conduction efficiency, and isobaric adhesive tape binding face 34 area is big, can realize the super wide overlap joint with cavity heat insulating strip 12 to the existence of cavity can reduce the meter of isobaric adhesive tape and heavily, material saving, and mechanical properties is also more reasonable.

As shown in fig. 5, the cavity thermal insulation strip 12 is a thermal insulation strip with a thermal insulation strip cavity 121 protruding to one side of the frame profile, the thermal insulation strip cavity 121 may be a triangular cavity or a triangular cavity with arc sides, the outer contour of the thermal insulation strip cavity 121 includes a thermal insulation strip bottom surface 122, a thermal insulation strip supporting surface 123 and a thermal insulation strip attaching surface 124, and the thermal insulation strip attaching surface 124 is a plane or an arc surface. The thermal insulation strip attaching surface 124 is an inclined surface, so that the instant contact between the isobaric adhesive strip attaching surface 34 and the thermal insulation strip attaching surface is more stable and the stress direction is more reasonable when the door and the window are opened or closed. Meanwhile, the triangular cavity can increase the thickness of the heat insulation medium and improve the heat insulation performance.

The heat insulating strip cavity (121), heat insulating strip holding surface (123), heat insulating strip binding surface (124), press to become cavity (32), isobaric adhesive tape binding surface (33) and press to become the nearly outdoor side outline of cavity, constituted the super thick heat-insulating medium 7 that is located super wide overlap joint area 102 jointly, the multiple superimposed super thick heat-insulating medium 7 that constitutes like this, more "two walls two chambeies" have been gone out at least than traditional structure in other words, greatly improved "thickness" that is used for cutting off indoor outer cold and hot conduction medium, improve the holistic thermal-insulated effect of door and window.

[ example 3 ]

As shown in fig. 6 and 7, the widened glass pressing line 4 is of a hollow structure, the surface of the side of the door or window close to the hollow glass 9 is a pressing line vertical surface 41, the widened glass pressing line 4 is installed on the sash chamber inner section bar 11 through the pressing line groove 112, the pressing line vertical surface 41 is aligned with the sash chamber outer side broadside edge 141 in the vertical door or window direction, the widened glass pressing line 4 is installed on the sash chamber inner section bar 21 through the frame european standard groove 211, and the pressing line vertical surface 41 is aligned with the sash chamber outer side broadside edge 231 in the vertical door or window plane direction. Widen glass line ball 4 and can effectively strengthen the fixed firmness of glass, simultaneously, guarantee that indoor side aligns with the fixed glass's of outdoor side section bar, and is very pleasing to the eye in the vision.

Although particular embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a wide lapped section bar structure of isobaric adhesive tape of system door and window, includes fan-shaped material (1), frame section bar (2), the super wide overlap joint isobaric adhesive tape of cavity formula (3) and widens glass line ball (4), its characterized in that: fan section bar (1) is including fan indoor section bar (11), fan outdoor section bar (14), connects through cavity heat insulating strip (12) and fan C shape heat insulating strip (13), frame section bar (2) are connected through frame C shape heat insulating strip (22) including frame indoor section bar (21), frame outdoor section bar (23), according to standard distance combination, and the five metals passageway area (101) of constitution and the center of super wide overlap joint area (102) are 4-14 millimeters dislocation array structure according to the section bar, cavity heat insulating strip (12) closely laminate with cavity formula super wide overlap joint isobaric adhesive tape (3), constitute super thick heat-insulating medium (7), form 5-15 millimeters super wide overlap joint volume (8) according to the section bar.

2. The system door and window isobaric glue strip ultra-wide lapped profile structure according to claim 1, characterized in that: the fan indoor section (11) and the fan outdoor section (14) are of hollow structures, heat insulation strip clamping grooves (5) are formed in the surfaces of the fan indoor section and the fan outdoor section, and the cavity heat insulation strips (12) and the fan C-shaped heat insulation strips (13) are arranged on the heat insulation strip clamping grooves (5); the frame is characterized in that the frame indoor section (21) and the frame outdoor section (23) are of hollow structures, heat insulation strip clamping grooves (5) and isobaric adhesive tape clamping openings (6) are formed in the surfaces of the frame indoor section and the frame outdoor section, the frame C-shaped heat insulation strips (22) are installed on the heat insulation strip clamping grooves (5), and the cavity type ultra-wide lapped isobaric adhesive tapes (3) are installed on the isobaric adhesive tape clamping openings (6).

3. The system door and window isobaric glue strip ultra-wide lapped profile structure according to claim 1, characterized in that: the sash indoor section bar (11) is provided with a sash European standard groove (111) and a line pressing groove (112), the frame indoor section bar (21) is provided with a frame European standard groove (211), the farthest end of one side of the sash outdoor section bar (14) close to the hollow glass (9) is a sash outdoor side broadside edge (141), and the farthest end of one side of the sash outdoor section bar (23) close to the sash section bar is a frame outdoor side broadside edge (231).

4. The system door and window isobaric glue strip ultra-wide lapped profile structure according to claim 1, characterized in that: the outdoor heat insulation strip of indoor section bar (21) of frame is located heat insulation strip draw-in groove (5) place of fan indoor section bar (11) and is located towards outdoor side antedisplacement, heat insulation strip draw-in groove (5) place of outdoor section bar (23) of frame is located heat insulation strip draw-in groove (5) place of fan outdoor section bar (14) and is located towards outdoor side antedisplacement, the nearly sector of outdoor section bar (23) is located towards fan one side antedisplacement than frame European standard groove (211) notch place of indoor section bar (21), the nearly sector of outdoor section bar (14) is located towards fan one side indentation.

5. The system door and window isobaric glue strip ultra-wide lapped profile structure according to claim 1, characterized in that: set up thermal-insulated cavity (31), press and become cavity (32) and outer mouthful adhesive tape draw-in groove (34) on super wide overlap joint isobaric adhesive tape (3) of cavity formula, press and become cavity (32) and can be oval, semi-circular, polygon, press and become cavity (32) nearly cavity heat insulating strip (12) one side outline and be isobaric adhesive tape binding face (33).

6. The system door and window isobaric glue strip ultra-wide lapped profile structure according to claim 1, characterized in that: the cavity heat insulating strip (12) is a heat insulating strip with a heat insulating strip cavity (121) protruding towards one side of the frame section bar, the heat insulating strip cavity (121) can be a triangular cavity or a cambered-side triangular cavity, the outer contour of the heat insulating strip cavity (121) comprises a heat insulating strip bottom surface (122), a heat insulating strip supporting surface (123) and a heat insulating strip attaching surface (124), and the heat insulating strip attaching surface (124) is a plane or a cambered surface.

7. The system door and window isobaric glue strip ultra-wide lapped profile structure according to claim 1, characterized in that: five metals passageway is regional (101) for following fan european standard groove (111) notch to frame european standard groove (211) notch and between the region, super wide overlap joint area (102) are from isobaric adhesive tape bayonet socket (6) to heat insulating strip bottom surface (122) and between the region, according to the section bar size the center of five metals passageway region (101) and super wide overlap joint area (102) is 4-14 millimeters dislocation array structure in parallel door and window plane direction.

8. The system door and window isobaric glue strip ultra-wide lapped profile structure according to claim 1, characterized in that: the ultra-thick heat insulation medium (7) is located in the ultra-wide lap joint area (102), forms a heat insulation medium in the direction perpendicular to the plane of a door and a window, and comprises a heat insulation strip cavity (121), a heat insulation strip supporting surface (123), a heat insulation strip binding surface (124), a pressure variable cavity (32), an isobaric adhesive tape binding surface (33) and an outer contour close to the outdoor side of the pressure variable cavity.

9. The system door and window isobaric glue strip ultra-wide lapped profile structure according to claim 1, characterized in that: the cavity heat insulation strip (12) is tightly attached to the cavity type ultra-wide lap joint isobaric adhesive tape (3), so that a heat insulation strip attaching surface (124) of the cavity heat insulation strip (12) and an isobaric adhesive tape attaching surface (33) of the cavity type ultra-wide lap joint isobaric adhesive tape (3) are mutually extruded and overlapped, and 5-15 mm ultra-wide lap joint amount (8) is formed in the plane direction of a parallel door and window.

10. The system door and window isobaric glue strip ultra-wide lapped profile structure according to claim 1, characterized in that: the widened glass pressing line (4) is of a hollow structure and is installed on the sash indoor section bar (11) through the pressing line groove (112), and a pressing line vertical face (41) vertical to a window face is flush with a sash outdoor side wide edge (141) on the sash outdoor section bar (14) in the direction vertical to the window face.

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