CN115341840A - Built-in shutter installation component and hollow window structure - Google Patents

Abstract

The invention relates to the technical field of shutters, in particular to a built-in shutter installation component and a hollow window structure, which comprise: the outer window frame is sleeved outside the inner window frame, and a sealing structure at a gap between the outer window frame and the inner window frame forms a first sealing layer; the inner window frame comprises a first side frame facing the indoor environment and a second side frame facing the outdoor environment, and a suspension beam extending from the first side frame towards the second side frame forms a gap space for mounting the louver body; the sealing structure at the end edge of the suspension beam is in contact with the side wall of the second side frame facing the first side frame to form a second sealing layer. According to the invention, the hollow window body structure is set to be a nested structure, the inner window frame is set to be a two-layer structure, the louver is convenient to assemble and disassemble, the assembling difficulty is reduced, the first sealing layer and the second sealing layer guarantee the integral sealing effect, the louver frame is nested in the first side frame through the design of the suspension beam, the blades are convenient to maintain, and the service life of the window is prolonged.

Description

Built-in shutter installation component and hollow window structure

Technical Field

The invention relates to the technical field of shutters, in particular to a built-in shutter installation assembly and a hollow window structure.

Background

The built-in shutter hollow glass is composed of at least two pieces of glass, a frame, a warm edge strip, shutter blades, a blade adjusting mechanism and the like, wherein the blade adjusting mechanism is composed of a blade lifting mechanism and a blade overturning mechanism, the built-in shutter hollow glass is generally opened or closed by adopting a manual pull rope or a mechanical method, the shutter curtain is integrally installed in the hollow glass by means of advanced technology, the product saves the using space, achieves the sun-shading purpose, has the heat preservation and noise-proof functions, and simultaneously provides novel vision for buildings and rooms, and can adjust the angle of the shutter to achieve sun-shading or lighting in summer or winter, so that the energy consumption of an air conditioner is greatly reduced.

However, in the long-term use of the traditional hollow glass shutter, the occurrence of hinge or damage phenomenon can be caused, the maintenance or the replacement is needed, and all the fixing structures between two windows need to be removed in the maintenance and the disassembly processes, which is not only troublesome, but also easily damages the frame structure of the hollow glass shutter and seriously affects the service life of the window.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: provides a built-in shutter installation component and a hollow window structure to solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that: a built-in shutter installation component and hollow window structure, includes: the outer window frame is sleeved on the outer side of the inner window frame, and a sealing structure at a gap position of the outer window frame forms a first sealing layer;

the inner window frame comprises a first side frame facing an indoor environment and a second side frame facing an outdoor environment, and a suspension beam extending from the first side frame towards the second side frame forms a gap space for mounting the louver body;

the sealing structure at the end edge of the suspension beam is in contact with the side wall of the second side frame facing the first side frame to form a second sealing layer.

Further, the outer window frame comprises a first metal piece sealed with the first side frame and a second metal piece sealed with the second side frame;

the first metal piece and the second metal piece are connected through a nylon structure to form a cavity filled with heat-insulating and sound-insulating cotton, and a first mounting position and a second mounting position are arranged on one side, facing the inner window frame, of the nylon structure;

a first sealing strip for sealing the first side frame is arranged at the first mounting position;

a second sealing strip for sealing the second side frame is arranged at the second mounting position;

and a plurality of buffer cavities are formed in the first sealing strip and the second sealing strip along the direction parallel to the first sealing layer.

Furthermore, at least one third metal piece is arranged between the first metal piece and the second metal piece and is connected with the first metal piece and the second metal piece through a nylon structure;

and a third mounting position is arranged on the third metal piece, and one end of the second sealing strip, which is close to the first sealing strip, is mounted in the third mounting position.

Furthermore, a side wall of the first side frame, which is located in the indoor environment, protrudes out of the first metal piece, and extends out of a first side rib towards the first metal piece, and a third sealing strip is arranged at a position, facing the side wall of the first metal piece, of the first side rib;

a second side rib extends from one side wall of the second metal piece positioned in the outdoor environment to the direction of the second side frame, and the second side rib is flush with the outer side surface of the second side frame;

and the second side frame is provided with a butt joint groove corresponding to the second side flange, and the second side flange faces the butt joint groove and is provided with a fourth sealing strip.

Further, the interior of the suspension beam is of a hollow structure;

a first clamping part extends from the root of the suspension beam towards the direction of the first side frame;

a second clamping portion extends from the end portion of the suspension beam in the direction towards the first side frame, and a first mounting edge and a second mounting edge are arranged on the second clamping portion in the direction parallel to the second sealing layer;

the second installation limit downward sloping extends, and with first installation limit orientation the direction of first side frame is open structure, and is equipped with semi-closed dop in uncovered department, forms the cavity that is used for installing the fifth sealing strip.

Furthermore, a third mounting edge extends out of the end part of the second mounting edge horizontally, the end part of the third mounting edge is of a barb structure, and a mounting groove is formed by the end part of the third mounting edge and the semi-closed chuck on the second mounting edge;

the first clamping portion is of a C-shaped structure with an opening facing the first side frame, and a guide surface is arranged at the end of the first clamping portion;

the third mounting edge and the first clamping portion are located on the same clamping surface.

Furthermore, a first stop edge is arranged at the edge of the first sealing strip, which is close to the second sealing strip, and the first stop edge is contacted with the edge of the second sealing strip;

the first side frame is provided with a butting nylon piece at the position corresponding to the first sealing strip,

the first stop is of an inclined structure which is contracted inwards along the direction facing the first side frame, the extending end is bent to form an abutting head, and the protruding part of the abutting nylon piece is in contact with the abutting head;

and at least one first sealing bulge is arranged on the edge of the contraction end of the first sealing strip.

Further, the second sealing strip comprises a second stopping edge and an abutting edge, the second stopping edge is arranged on one side close to the outdoor environment, and the abutting edge is arranged on one side close to the first sealing strip;

the second stopping edge and the abutting edge are arranged in a mode of inclining downwards towards the first side frame, and a first bearing surface and a second bearing surface are arranged between the second stopping edge and the abutting edge;

the first bearing surface and the second bearing surface are arranged at a certain included angle along the inclination direction, and a second sealing bulge is formed at the intersection position.

Further, a sealing blocking edge extends out of one side, close to the first sealing layer, of the suspension beam;

when the first sealing strip abuts against the second sealing strip, the first bearing surface and the second bearing surface enable the second sealing bulge to move towards the cantilever beam and abut against the sealing blocking edge.

The invention also provides a built-in shutter installation assembly, comprising:

according to the hollow window body structure, a double-layer glass structure is arranged in the first side frame, a single-layer glass structure is arranged in the second side frame, and a sixth sealing strip is arranged in the circumferential direction of the double-layer glass structure;

the frame is provided with an accommodating groove towards the direction of the suspension beam, and the open end of the frame is installed on the suspension beam extending out of the first side frame in an inserting mode to form an installation frame in a splicing mode;

the shutter assembly comprises a driving assembly and a shutter, the driving assembly is arranged in the accommodating groove of the frame, and the shutter is arranged in the mounting frame.

The invention has the beneficial effects that: according to the invention, the hollow window body structure is set to be the nested structure, the inner window frame is set to be the two-layer structure, the louver is convenient to assemble and disassemble, the assembly difficulty is reduced, the first sealing layer and the second sealing layer guarantee the overall sealing effect, the louver frame is nested in the first side frame through the design of the suspension beam, the blades are convenient to maintain, and the service life of the window is prolonged.

Drawings

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

FIG. 1 is an exploded view of a hollow window structure according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of an inner reveal according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of an outer sash in accordance with an embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 2;

FIG. 5 is a schematic assembled cross-sectional view of a hollow window structure in an embodiment of the present invention;

FIG. 6 is a schematic cross-sectional view of a first sealing tape according to an embodiment of the present invention;

FIG. 7 is a partial enlarged view of FIG. 5 at B;

FIG. 8 is a schematic sectional view of a second weather strip in the embodiment of the invention;

FIG. 9 is an enlarged view of a portion of FIG. 5 at C;

FIG. 10 is a schematic view of a built-in blind mounting assembly in an embodiment of the present invention.

Reference numerals: 10. an outer window frame; 11. a first metal member; 12. a second metal piece; 121. a second side flange; 13. a nylon structure; 13a, a first mounting position; 13b, a second mounting position; 14. a third metal piece; 14a, a third mounting position; 20. an inner window frame; 21. a first side frame; 211. a first side flange; 212. abutting the nylon piece; 22. a second side frame; 221. a butt joint groove; 23. a suspension beam; 233. sealing the blocking edge; 231. a first clamping part; 231a, a guide surface; 232. a second clamping part; 232a and a first mounting edge; 232b and a second mounting edge; 232c, semi-closed clamping head; 232d and a third mounting edge; 30. a first seal strip; 31. a first stop edge; 311. a butting head; 32. a first seal projection; 40. a second seal strip; 41. a second stop edge; 42. an abutting edge; 43. a first bearing surface; 44. a second bearing surface; 45. a second seal projection; 50. a third seal strip; 60. a fourth seal strip; 70. a fifth sealing strip; 80. a double-layer glass structure; 90. a single layer glass structure; 100. a sixth sealing strip; 110. a frame; 120. a blind assembly.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a single embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The hollow window structure shown in fig. 1 to 9 includes: the window comprises an outer window frame 10 and an inner window frame 20, wherein the outer window frame 10 is sleeved outside the inner window frame 20, and a sealing structure at a gap position forms a first sealing layer; the inner window frame 20 comprises a first side frame 21 facing the indoor environment and a second side frame 22 facing the outdoor environment, and a suspension beam 23 extending from the first side frame 21 to the second side frame 22 forms a gap space for installing a louver body; and the sealing structure at the end edge of the suspension beam 23 is in contact with the side wall of the second side frame 22 facing the first side frame 21 to form a second sealing layer.

According to the invention, the hollow window body structure is set to be a nested structure, the inner window frame 20 is set to be a two-layer structure, the louver window frame is nested in the first side frame 21, the integral sealing effect is ensured, and the louver window frame and the blades can be assembled and disassembled through the design of the suspension beam 23, so that the assembly difficulty is reduced, the blades are convenient to maintain, and the service life of the window is prolonged.

In order to ensure the stability of the frame structure during the installation of the outer window frame 10 on the wall, the outer window frame 10 includes a first metal piece 11 sealed with the first side frame 21, and a second metal piece 12 sealed with the second side frame 22; in addition, the first metal piece 11 and the second metal piece 12 are connected through the nylon structure 13 to form a cavity filled with heat insulation and sound insulation cotton, so that the outdoor metal piece and the indoor metal piece cannot be in direct contact, a thermal bridge is cut off, the heat insulation performance is improved, the nylon structure 13 adopts a simple splicing type structure, the assembly difficulty is greatly reduced, when the inner window frame 20 is installed in the outer window frame 10, in order to better achieve the heat insulation and heat insulation effects, a sealing structure is installed at the gap between the two, the sealing structure can be extruded and deformed in the process of installing the inner window frame 20, so that the gap between the inner window frame 20 and the outer window frame 10 is filled, in order to avoid dislocation or falling of the sealing structure in the extrusion process, a first installation position 13a and a second installation position 13b are arranged on one side of the nylon structure 13 facing the inner window frame 20, specifically, a first sealing strip 30 used for sealing the first side frame 21 is arranged at the first mounting position 13a, a second sealing strip 40 used for sealing the second side frame 22 is arranged at the second mounting position 13b, and a plurality of buffer cavities are arranged in the first sealing strip 30 and the second sealing strip 40 along the direction parallel to the first sealing layer, are irregular and are distributed along the direction of the first sealing layer, so that when the buffer cavities are extruded, the buffer cavities have a damping effect on the inner window frame 20 at the initial stage, the window body structure is protected from being damaged, and when the inner window frame 20 is continuously pressed, the sealing strips deform along the pressing-in direction, and a good sealing effect is achieved on gaps.

On the basis of the above embodiment, in order to further ensure the overall strength of the outer window frame 10, at least one third metal piece 14 is arranged between the first metal piece 11 and the second metal piece 12, and is connected with the first metal piece 11 and the second metal piece 12 through the nylon structure 13, and a third installation position 14a is arranged on the third metal piece 14, and one end of the second sealing strip 40 close to the first sealing strip 30 is installed in the third installation position 14a, so that the second sealing strip 40 is effectively prevented from being damaged under the double extrusion action of the first sealing strip 30 and the second side frame 22, and the sealing effect is ensured.

When the inner window frame 20 is installed, the second side frame 22 is installed in the outer window frame 10 and sealed with the second metal part 12 of the outer window frame 10, and since the inner window frame 20 faces the outdoor environment, in order to improve the safety and reliability of the installation process, a second side flange 121 extends from a side wall of the second metal part 12 located in the outdoor environment in a direction towards the second side frame 22, the second side flange 121 is flush with the outer side surface of the second side frame 22, a butting groove 221 is formed in the second side frame 22 corresponding to the second side flange 121, a fourth sealing strip 60 is arranged in the direction towards the butting groove 221 of the second side flange 121, the position of the inner window frame 20 is limited to avoid exceeding the installation range and causing potential safety hazards due to dropping, when the first side frame 21 facing the indoor environment is installed, the first side frame 21 presses the first sealing strip 30 and plays a sealing role by matching with the second sealing layer, and in the process of pressing the second sealing layer, the second side frame 22 bears the pressing force of the second side frame, but only depends on the first side flange 211, the first side flange 21 cannot be installed well, and therefore, the first side flange 211 protrudes out of the first side metal part 11 and extends towards the first side wall 11.

Through the setting of first side flange 211 and second side flange 121, play the positioning action to first side frame 21 and second side frame 22, guaranteed the installation accuracy, avoid sealed inefficacy and the potential safety hazard that the extrusion transition leads to, improved the sealed effect of outer window frame 10 and interior window frame 20.

In a preferred embodiment of the present invention, a louver is structurally installed on the suspension beam 23, and in order to ensure that the support strength of the suspension beam 23 meets the requirement, specifically, the suspension beam 23 is internally of a hollow structure, so that while the self weight of the suspension beam 23 is reduced, the support force on the suspension beam 23 is decomposed through a cavity of the hollow structure, so as to ensure the uniformity of the stress on the first side frame 21, furthermore, in order to improve the convenience of installation, a first clamping portion 231 extends from the root of the suspension beam 23 towards the first side frame 21, a second clamping portion 232 extends from the end of the suspension beam 23 towards the first side frame 21, the second clamping portion 232 is provided with a first installation edge 232a and a second installation edge 232b along a direction parallel to the second sealing layer, wherein the second installation edge 232b extends obliquely downwards and is of an open structure with the first installation edge 232a towards the first side frame 21, and a semi-closed clamping head 232c is provided at the open end to form a cavity for installing the fifth sealing strip 70, and the fifth installation edge 70 is in contact with the second side frame 22, so as to achieve the effect of sealing strip on the suspension beam 23 and protecting the dustproof structure of the second side frame 23.

Preferably, as for the above embodiment, the end of the second mounting edge 232b horizontally extends to form a third mounting edge 232d, and the end of the third mounting edge 232d is of a barb structure, and forms a mounting groove with the semi-closed chuck 232C on the second mounting edge 232b, so as to mount the fifth sealing strip 70, and by setting the third mounting edge 232d, the louver frame mounted on the third mounting edge 232d supports the fifth sealing strip 70, so as to avoid displacement along the direction of the second sealing layer when sealing the end surface of the second side frame 22, which causes a falling-off phenomenon, and in addition, in order to ensure convenience of installation of the louver frame, the opening of the first clamping portion 231 faces the C-shaped structure of the first side frame 21, and the end of the first clamping portion 231 is provided with a guide surface 231a, so that the louver frame can be smoothly inserted into the third mounting edges 232d of the first clamping portion 231 and the second clamping portion 232, and in the inserting process, in order to avoid the occurrence of a clamping phenomenon due to uneven stress, the third mounting edge 232d and the first clamping portion 232d are located on the same clamping surface.

In the preferred embodiment of the present invention, the first sealing strip 30 is provided with the first stopping edge 31 at the edge close to the second sealing strip 40, and is in contact with the edge of the second sealing strip 40, so that when the first sealing strip 30 is pressed by the first side frame 21, the second sealing strip 40 supports the first stopping edge 31, and the sealing performance between the first sealing strip 30 and the first side frame 21 is ensured, however, in the specific implementation process, when the pressure applied by the first side frame 21 is too large, the metal member of the first side frame 21 may damage the first sealing strip 30, therefore, the abutting nylon member 212 is provided at the position of the first side frame 21 corresponding to the first sealing strip 30, and by the abutting nylon member 212 being in contact with the first sealing strip 30, the damage caused by hard contact is effectively avoided, and in addition, in order to improve the sealing effect between the abutting nylon member 212 and the first sealing strip 30, specifically, the first stopping edge 31 is of an inward contraction inclined structure towards the direction of the first side frame 21, the extending end is bent to form an abutting head 311, the protruding part of the abutting nylon piece 212 is in contact with the abutting head 311, the abutting head 311 is bent towards the indoor environment, a gap exists between the abutting head 311 and the first stopping edge 31, so that the abutting nylon piece 212 has enough buffering space when extruding the first sealing strip 30, at least one first sealing bulge 32 is arranged on the edge at the contraction end of the first sealing strip 30, when the first sealing strip 30 is not extruded, an included angle exists between the edge at the contraction end and the top surface of the abutting nylon piece 212, the included angle gradually increases towards the direction of the indoor environment, a plurality of cavities are arranged on the protruding part of the abutting nylon piece 212 along the direction of the first sealing layer, when the first stopping edge 31 of the first sealing strip 30 is extruded, the outer edge at the contraction end is in contact with the first sealing bulge 32 on the top surface of the abutting nylon piece 212, the abutting nylon piece 212 is bidirectionally sealed by the abutting head 311 and the first sealing bulge 32, so that the sealing effect is effectively improved.

In the preferred embodiment of the present invention, the second sealing strip 40 comprises a second stopping edge 41 and an abutting edge 42, the second stopping edge 41 is arranged at the side close to the outdoor environment, and the abutting edge 42 is arranged at the side close to the first sealing strip 30; the second stopping edge 41 and the abutting edge 42 are arranged downwards towards the first side frame 21, and a first bearing surface 43 and a second bearing surface 44 are arranged between the second stopping edge 41 and the abutting edge 42; the first receiving surface 43 and the second receiving surface 44 are arranged along the oblique direction at a certain included angle, and a second sealing protrusion 45 is formed at the intersection, it should be noted that the second stopping edge 41 needs to support the first sealing strip 30 while sealing the second side frame 22, and in order to avoid the first sealing strip 30 from inclining the abutting edge 42 toward the outdoor environment, the second stopping edge 41 is always kept in a sealing state with the second side frame 22, so the first receiving surface 43 and the second receiving surface 44 between the second stopping edge 41 and the abutting edge 42 are arranged in an included angle structure, when the first sealing strip 30 applies pressure to the abutting edge 42 along the direction of the first sealing layer, the included angle between the first receiving surface 43 and the second receiving surface 44 is reduced, and the inclination angle of the second stopping edge 41 is not changed, so that the sealing performance of the second sealing strip 40 on the second side frame 22 is ensured.

As a preference of the above embodiment, a sealing stop edge 233 extends from one side of the suspension beam 23 close to the first sealing layer; when the first sealing strip 30 abuts against the second sealing strip 40, the first receiving surface 43 and the second receiving surface 44 enable the second sealing protrusion 45 to move towards the cantilever beam 23 and abut against the sealing stop edge 233, so that the sealing effect of the first sealing layer is increased, and the sealing effect of the outer window frame 10 and the inner window frame 20 is further ensured.

Example two

A built-in blind window installation assembly adopts a hollow window structure in the first embodiment, a double-layer glass structure 80 is installed in a first side frame 21, a single-layer glass structure 90 is installed in a second side frame 22, sealing strips are used for sealing installation when the double-layer glass structure 80 and the single-layer glass structure 90 are installed, a sixth sealing strip 100 is installed in the circumferential direction of the double-layer glass structure 80, and in addition, a cavity structure is adopted for an inner supporting strip of double-layer hollow glass, so that a good supporting effect is achieved. As shown in fig. 10, the blind window mounting assembly further includes a frame 110 and a blind window assembly 120, the frame 110 has a receiving groove facing the direction of the suspension beam 23, and an open end of the receiving groove is mounted on the suspension beam 23 extending from the first side frame 21 in an inserting manner, so as to form a mounting frame by splicing; the blind assembly 120 includes a driving assembly disposed in the receiving groove of the frame 110 and a blind disposed in the mounting frame.

It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A hollow window structure, comprising: the outer window frame is sleeved on the outer side of the inner window frame, and a sealing structure at a gap position of the outer window frame forms a first sealing layer;

the inner window frame comprises a first side frame facing an indoor environment and a second side frame facing an outdoor environment, and a suspension beam extending from the first side frame towards the second side frame forms a gap space for mounting the louver body;

the sealing structure at the end edge of the suspension beam is in contact with the side wall of the second side frame facing the first side frame to form a second sealing layer.

2. The hollow window structure of claim 1 wherein said outer window frame comprises a first metal sealed to said first side frame and a second metal sealed to said second side frame;

the first metal piece and the second metal piece are connected through a nylon structure to form a cavity filled with heat-insulating and sound-insulating cotton, and a first mounting position and a second mounting position are arranged on one side, facing the inner window frame, of the nylon structure;

the first mounting position is provided with a first sealing strip for sealing the first side frame;

the second mounting position is provided with a second sealing strip for sealing the second side frame;

and a plurality of buffer cavities are formed in the first sealing strip and the second sealing strip along the direction parallel to the first sealing layer.

3. The hollow window structure of claim 2 wherein at least one third metal member is disposed between and connected to said first and second metal members by a nylon structure;

and a third mounting position is arranged on the third metal piece, and one end of the second sealing strip, which is close to the first sealing strip, is mounted in the third mounting position.

4. The hollow window structure according to claim 2 or 3, wherein a sidewall of said first side frame located in the indoor environment protrudes from said first metal member, and extends out of a first side rib towards said first metal member, and a third sealing strip is disposed at a sidewall of said first side rib towards said first metal member;

a second side rib extends out of one side wall of the second metal piece positioned in the outdoor environment in the direction towards the second side frame, and the second side rib is flush with the outer side surface of the second side frame;

and the second side frame is provided with a butt joint groove corresponding to the second side flange, and the second side flange faces the butt joint groove and is provided with a fourth sealing strip.

5. The hollow window structure of claim 1 wherein said suspension beam is hollow inside;

a first clamping part extends from the root of the suspension beam towards the direction of the first side frame;

a second clamping portion extends from the end portion of the suspension beam in the direction towards the first side frame, and a first mounting edge and a second mounting edge are arranged on the second clamping portion in the direction parallel to the second sealing layer;

the second installation limit downward sloping extends, and with first installation limit orientation the direction of first side frame is open structure, and is equipped with semi-closed dop in uncovered department, forms the cavity that is used for installing the fifth sealing strip.

6. The hollow window structure of claim 5 wherein the end of the second mounting edge extends horizontally to form a third mounting edge, and the end of the third mounting edge is a barb structure and forms a mounting groove with the semi-enclosed clip on the second mounting edge;

the first clamping portion is of a C-shaped structure with an opening facing the first side frame, and a guide surface is arranged at the end of the first clamping portion;

the third mounting edge and the first clamping portion are located on the same clamping surface.

7. The hollow window structure of claim 2 wherein the first sealing strip has a first stop edge near the edge of the second sealing strip and contacts the edge of the second sealing strip;

the first side frame is provided with a butting nylon piece at the position corresponding to the first sealing strip,

the first stopping piece is of an inclined structure which is contracted inwards along the direction towards the first side frame, the extending end is bent to form an abutting head, and the protruding part of the abutting nylon piece is in contact with the abutting head;

and at least one first sealing bulge is arranged on the edge of the contraction end of the first sealing strip.

8. The hollow window structure of claim 2 wherein said second bead includes a second stop edge and an abutment edge, said second stop edge being disposed on a side adjacent to the outdoor environment and said abutment edge being disposed on a side adjacent to said first bead;

the second stopping edge and the abutting edge are arranged in a mode of inclining downwards towards the first side frame, and a first bearing surface and a second bearing surface are arranged between the second stopping edge and the abutting edge;

the first bearing surface and the second bearing surface are arranged at a certain included angle along the inclination direction, and a second sealing bulge is formed at the intersection position.

9. The hollow window structure of claim 8 wherein a seal stop extends from a side of the cantilever beam adjacent the first seal layer;

when the first sealing strip abuts against the second sealing strip, the first bearing surface and the second bearing surface enable the second sealing bulge to move towards the cantilever beam and abut against the sealing blocking edge.

10. A built-in blind mounting assembly, comprising:

a hollow window structure as claimed in claim 1 having a double glazing structure mounted in said first jamb and a single glazing structure mounted in said second jamb, said double glazing structure having a sixth weatherstrip mounted circumferentially thereon;

the frame is provided with an accommodating groove in the direction towards the suspension beam, and the open end of the frame is installed on the suspension beam extending out of the first side frame in an inserting mode to form an installation frame in a splicing mode;

the shutter assembly comprises a driving assembly and a shutter curtain, the driving assembly is arranged in the accommodating groove, and the shutter curtain is arranged in the mounting frame.

Images