CN218150457U - Novel integrated structure of mullion-free split window screen - Google Patents

Abstract

The utility model relates to the technical field of doors and windows, in particular to a novel integrated structure of a mullion-free split-screen window, which is formed by connecting an outer frame formed by surrounding the outside and a plurality of inner connecting frames at the middle part, wherein a region part for assembling the doors and windows is formed at the middle part between the outer frame and the inner connecting frames, and the region part is an inner region part for simultaneously installing a glass window and a screen window at the middle part and a side region for installing the glass window which is adjacent to the side part of the inner region part; the inner area part comprises a side middle frame with two side parts and an opening glass sash and an opening gauze sash in the middle; the opening glass sash and the opening screen sash are respectively arranged in the outdoor direction and the indoor direction in opposite directions on the same plane; the split glass is assembled between the opening glass sash and the side middle stiles of the two side parts, and the split screen window is assembled between the opening screen sash and the side middle stiles of the two side parts.

Description

Novel integrated structure of mullion-free split window screen

Technical Field

The utility model belongs to the technical field of door and window technique and specifically relates to indicate a novel there is not very formula of oppositely opening window screening integral type structure.

Background

The heat-insulating window screen integrated window is widely applied to the field of home decoration doors and windows, wherein a common heat-insulating window screen installation mode is that a window sash is integrally installed, namely, the heat-insulating window screen is installed on the inner side of a glass window sash, so that the glass window sash is opened towards the outdoor side, and the screen sash is opened towards the indoor side.

Referring to an example of fig. 6 in a hardware sectional material system with a single handle for controlling window screening, which is disclosed in patent No. CN 104453677B and patent name, all heat insulation window screening integrated windows in the prior art are opened and closed at the frame part of a door frame, but are not opened and closed in a split manner with respect to the middle part of the window body, and a manufacturing method of a split door is adopted.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough to overcome above-mentioned condition, aims at providing the technical scheme that can solve above-mentioned problem.

A novel integrated structure of a mullion-free split window screen is formed by connecting an outer frame formed by surrounding the outside and a plurality of inner connecting frames in the middle, wherein an area part for assembling a glass window and window is formed in the middle between the outer frame and the inner connecting frames, and the area part is an inner area part with the middle part used for simultaneously installing the glass window and the window screen and a side area part with the glass window adjacently installed along the side part of the inner area; the inner area part comprises a side middle frame with two side parts and an opening glass sash and an opening gauze sash in the middle; the opening glass sash and the opening screen sash are oppositely arranged in the outdoor direction and the indoor direction respectively on the same plane; the split glass is assembled between the opening glass sash and the side middle stiles of the two side parts, and the split screen window is assembled between the opening screen sash and the side middle stiles of the two side parts.

Furthermore, the glass window is opened and formed by connecting a first left section bar and a first right section bar, a first sealing blocking part is arranged at the adjacent part of the first left section bar and the first right section bar, and the first sealing blocking part can realize the sealing blocking and the opening of the first left section bar and the first right section bar.

Furthermore, the opening screen sash is formed by connecting a second left section bar and a second right section bar, a second sealing blocking part is arranged at the adjacent part of the first left section bar and the second right section bar, and the first left section bar and the second right section bar can be sealed and blocked and opened oppositely through the second sealing blocking part.

Furthermore, along the outdoor-to-indoor direction, a first inclined plane with gradually increasing inclined planes is extended from the outer side edge of the left section bar, and a second inclined plane with gradually increasing inclined planes is extended from the outer side edge of the right section bar; a first plane is arranged along the outer side edge of the left section bar in an extending mode from indoor to outdoor, and a second plane is arranged along the outer side edge of the right section bar in an extending mode; glass window slots for assembling glass on two side ends are respectively arranged between the first inclined plane and the first plane and between the second inclined plane and the second plane.

Furthermore, in the process of opening the screen window sash, a screen window slot position for loading the screen window is arranged along the outer sides of the second left section bar and the second right section bar, and the screen window is fixed through a fixing piece.

Furthermore, the middle parts of the two side parts are consistent and symmetrically arranged along the center positions of the opening glass sash and the opening screen sash; the side mullion consists of a first connecting piece, a second connecting piece and a third connecting piece; the first connecting piece and the second connecting piece are respectively and oppositely arranged in the indoor direction and the outdoor direction, the first connecting piece and the opening glass sash are assembled to form the folio glass, and the second connecting piece and the opening screen sash are assembled to form the folio screen window; the third connecting piece is arranged at the outer side parts of the first connecting piece and the second connecting piece, the middle parts of the third connecting piece, the first connecting piece and the second connecting piece are connected with an intermediate connecting piece, and the middle part of the intermediate connecting piece is occluded with a dovetail heat insulation broken bridge.

Furthermore, the hollow glass also comprises an outer frame section, the shape of the outer frame section is basically consistent with that of the third connecting piece, and hollow glass is assembled between the outer frame section and the third split mullion.

The beneficial effects of the utility model are that: compared with the prior art, the design component can complete the opposite opening, opening and closing modes of the glass and the window screening while realizing the integrated design of the glass and the window screening, removes the false middle support structure in the middle, integrates the original opposite opening door, the opposite window sash and the window screening into a whole, increases the sealing performance of the opposite window sash, and reduces the width of the opposite window sash and the window screening which are installed in the middle; the improved side middle support is based on the original foundation, and a dovetail heat insulation broken bridge is loaded in the middle of the middle connecting piece, so that the sealing heat insulation effect is further improved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic view of the overall structure of a window sash frame.

Fig. 2 is a schematic view of an assembly structure of the inner section of the window sash.

Fig. 3 is a schematic view of the structure of the opening glass sash and the opening screen sash.

Fig. 4 is a schematic diagram of a side mullion structure.

Fig. 5 is a schematic view of the structure of the opening glass fan.

Fig. 6 is a schematic view of a reference structure of an opening sash and a side mullion size.

In the drawings, the reference numbers are respectively: the thermal insulation screen window comprises an outer frame-1, an inner connecting frame-2, an inner area-3, a side area-4, a side mullion-5, an opening glass sash-6, an opening screen sash-7, a pair of opening glass-8, a pair of opening screen windows-9, a first left section-61, a first right section-62, a first sealing blocking part-63, a second left section-71, a second right section-72, a second sealing blocking part-73, a first inclined plane-64, a second inclined plane-65, a first plane-66, a second plane-67, a fixing part-10, a first connecting part-101, a second connecting part-102, a third connecting part-103, a middle connecting part-104, a dovetail thermal insulation bridge-105 and an outer frame section-11.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1, a novel integrated structure of a split window screen without a mullion is formed by connecting an outer frame 1 formed by surrounding the outside and a plurality of inner connecting frames 2 in the middle, wherein the plurality of inner connecting frames 2 are formed by assembling a plurality of transverse sectional materials and vertical sectional materials; meanwhile, the middle part between the outer frame 1 and the inner connecting frame 2 is formed with an area part for assembling glass doors and windows, the area part is an inner area part 3 with the middle part for simultaneously installing glass windows and screen windows and a side area part 4 for adjacently installing the glass windows along the side part of the inner area part 3; the inner area part 3 comprises a side middle stile 5 of two side parts, an opening glass sash 6 and an opening screen sash 7 in the middle part; the opening glass sash 6 and the opening screen sash 7 are respectively arranged in the outdoor direction and the indoor direction in opposite directions relative to the same plane; a split glass 8 is assembled between the opening glass sash 6 and the side middle stiles 5 at the two side parts, and a split screen window 9 is assembled between the opening screen sash 7 and the side middle stiles 5 at the two side parts; referring to the embodiment shown in fig. 1 to 5, the integral frame is formed by connecting an outer frame 1 and a middle inner frame 2 to form an integral body, and the integral frame and the inner frame form an inner area 3 and a side area 3, which correspond to each other, and the design point of the assembly is that the inner area 3 is loaded with symmetrically connected split glass 8 and split screen 9 by profiles, so as to realize the integration of the glass and the screen, which is implemented as follows: the side mullions 5 at the two side parts are matched with the opening glass sash 6 for use to install the split glass 8; the side mullions 5 at the two side parts are matched with the opening screen sash 7 to install the window opening screen; in the installation of the split glass 8, the first left section bar 61 on the left side of the opening glass sash 6 and the side mullion 5 on the left side are used for installing glass on one side end, the first right section bar 62 on the right side part of the opening glass sash 6 and the side mullion 5 on the right side part are used for installing glass on the other side, the first left section bar 61 and the first right section bar 62 are designed on the structure, the false mullion structure in the middle part is removed, and the first sealing blocking part 63 in a butting mode at the gap between the first left section bar 61 and the first right section bar 62 is spliced and integrated, so that the assembly of the split glass 8 is completed;

referring to the embodiment shown in fig. 3, the first left section bar 61 is provided with a blocking slot and a blocking block at the upper and lower ends, the first right section bar 62 is provided with a blocking block and a blocking slot which are reversed to match the section bars at the upper and lower ends, and the blocking slot and the blocking block can be butted against each other at the gap position between the first left section bar 61 and the first right section bar 62 through the corresponding slot and the corresponding block; this way it is ensured that the dimensions are further reduced while the mutual barrier seal is simultaneously obtained; the installation mode is consistent with the installation mode of the folio glass 8, the window screen at one side end is installed by the second left section bar 71 and the side mullion 5 of the left side part, the window screen at the other side is installed by the second right section bar 72 and the side mullion 5 of the right side part, the second left section bar 71 and the second right section bar 72 are designed on the structure per se, the false mullion structure at the middle part is removed, the splicing and integration are carried out at the position of the second sealing blocking part 73 between the second left section bar 71 and the second right section bar 72, and therefore the assembly of the folio window screen 9 is completed.

The design of the part integrates the split door in the original form with the window sash and the window gauze, realizes the split mode, increases the sealing performance of the window sash, and reduces the width of the window sash and the window gauze in the middle.

The opening glass sash 6 is formed by connecting a first left section bar 61 and a first right section bar 62, a first sealing blocking part 63 is arranged at the adjacent part of the first left section bar 61 and the first right section bar 62, and the first sealing blocking part 63 can realize the sealing and the abutting and the opening of the first left section bar 61 and the first right section bar 62; referring to fig. 5, the first left section bar 61 and the first right section bar 62 are substantially identical in shape and are installed symmetrically along the center, so that the symmetry can be further matched during installation in use.

The opening sash 7 is formed by connecting a second left section bar 71 and a second right section bar 72, a second sealing blocking part 73 is arranged at the adjacent part of the first left section bar 61 and the second right section bar 72, and the first left section bar 61 and the second right section bar 72 can be sealed, blocked, opened and closed through the second sealing blocking part 73, as shown in the attached drawings 2 and 3, the central positions of the first left section bar 61 and the first right section bar 62 and the central positions of the second left section bar 71 and the second right section bar 72 are approximately in the same straight line, and the opening sash 7 formed by integrating the first left section bar 61 and the first right section bar 62 and integrating the opening sash 6 and the second left section bar 71 and the second right section bar 72 is basically consistent in length and size, so the middle parts are in the same horizontal plane, and the observation performance is good during operation; referring to fig. 6, the sizes of the glass sash 6, the sash 7 and the side mullion 5 at the two side parts are basically consistent, and the glass sash is used for symmetrical opening to ensure the aesthetic property.

Along the outdoor-to-indoor direction, the outer side edge of the left section bar extends to form a first inclined surface 64 with gradually increasing inclined surfaces, and the outer side edge of the right section bar extends to form a second inclined surface 65 with gradually increasing inclined surfaces; along the indoor-outdoor direction, a first plane 66 extends from the outer side edge of the left section bar, and a second plane 67 extends from the outer side edge of the right section bar; glass window slots for assembling glass at two side ends are respectively arranged between the first inclined surface 64 and the first plane 66 and between the second inclined surface 65 and the second plane 67, as can be seen from figures 3 and 5, in the outdoor direction, due to the inclined surface design, the size of the middle part is further reduced during visual observation, the integral attractive effect is better, the size of the symmetrical inclined surfaces can be further reduced and the symmetrical forming can be realized, and the simplicity is also ensured in appearance; and the groove consisting of the first inclined surface 64 and the first plane 66 and the groove formed by the second inclined surface 65 and the second plane 67 are respectively loaded with the glass at the two side parts, thereby forming the split glass 8.

In the opening of the screen window 7, a screen window slot position for loading the screen window is arranged along the outer sides of the second left section bar 71 and the second right section bar 72, the screen window is fixed through the fixing piece 10, and the fixing piece 10 can use conventional types such as a countersunk screw, a cross, a hexagon and the like, so that the screen window is fixed in the screen window slot position.

The side middle stiles 5 of the two side parts are consistent and symmetrically arranged along the center positions of the opening glass sash 6 and the opening screen sash 7; the side mullion 5 consists of a first connecting piece 101, a second connecting piece 102 and a third connecting piece 103; the first connecting piece 101 and the second connecting piece 102 are respectively and oppositely arranged in the indoor direction and the outdoor direction, the first connecting piece 101 and the opening glass sash 6 are assembled to form the folio glass 8, and the second connecting piece 102 and the opening screen sash 7 are assembled to form the folio screen 9; the third connecting piece 103 is arranged at the outer side parts of the first connecting piece 101 and the second connecting piece 102, an intermediate connecting piece 104 is connected between the third connecting piece 103 and the first connecting piece 101 and the second connecting piece 102 in the middle, and a dovetail heat insulation broken bridge 105 is occluded in the middle of the intermediate connecting piece 104; referring to the embodiment shown in fig. 4, the side mullion 5 is formed by assembling and connecting a first connecting piece 101, a second connecting piece 102 and a third connecting piece 103 through a middle connecting piece 104, the first connecting piece 101 and the opening sash 6 realize the assembly of the split glass 8, the second connecting piece 102 and the opening sash 7 realize the assembly of the split window screen, and the third connecting piece 103 is matched with an outer frame profile 11 at an outer end to realize the assembly of the hollow glass.

The hollow glass roof also comprises an outer frame section bar 11, the shape of the outer frame section bar 11 is basically consistent with that of the third connecting piece 103, and hollow glass is assembled between the outer frame section bar 11 and the third split mullion; referring to the embodiment shown in fig. 1 and 2, the structure is basically consistent, so that the overall ornamental value is beautiful, and the split effect is better during operation.

When the glass sash 6 and the screen sash 7 are opened in operation, a world bolt can be arranged in the middle of the glass sash 6 and the screen sash 7, so that the combination of the world bolt and the screen sash 7 can be used for opening only one sash independently or opening two sashes simultaneously.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and although the present invention is disclosed in the above description in terms of preferred embodiments, it is not intended to limit the present invention, and any person skilled in the art will be able to make any changes or modifications to equivalent embodiments without departing from the scope of the present invention, and all the technical solutions of the present invention are within the scope of the present invention.

Claims (7)

1. A novel integrated structure of a mullion-free split window screen is formed by connecting an outer frame (1) formed by surrounding the outside and a plurality of inner connecting frames (2) in the middle, an area part for assembling a door window is formed in the middle between the outer frame (1) and the inner connecting frames (2), the area part is an inner area part (3) with the middle part provided with a glass window and a screen window simultaneously, and a side area (4) which is adjacent to the side part of the inner area part (3) and provided with the glass window; the method is characterized in that: the inner area part (3) comprises a side mullion (5) of two side parts, an opening glass sash (6) and an opening screen sash (7) in the middle part;

the opening glass sash (6) and the opening screen sash (7) are respectively arranged in the outdoor direction and the indoor direction in opposite directions on the same plane; a split glass (8) is assembled between the opening glass sash (6) and the side middle stiles (5) of the two side parts, and a split screen window (9) is assembled between the opening screen sash (7) and the side middle stiles (5) of the two side parts.

2. The novel integrated structure of the mullion-free split window screen, according to claim 1, is characterized in that: the glass window opening (6) is formed by connecting a first left section bar (61) and a first right section bar (62), a first sealing blocking part (63) is arranged at the adjacent part of the first left section bar (61) and the first right section bar (62), and the first left section bar (61) and the first right section bar (62) can be sealed and abutted and opened through the first sealing blocking part (63).

3. The novel integrated structure of the mullion-free split window screen, according to claim 1, is characterized in that: the opening screen sash (7) is formed by connecting a second left section bar (71) and a second right section bar (72), a second sealing blocking part (73) is arranged at the adjacent part of the first left section bar (61) and the second right section bar (72), and the first left section bar (61) and the second right section bar (72) can be sealed, resisted and oppositely opened through the second sealing blocking part (73).

4. The novel integrated structure of the mullion-free split window screen as claimed in claim 2, wherein: along the outdoor-to-indoor direction, the outer side edge of the left section bar extends to form a first inclined plane (64) with gradually increasing inclined planes, and the outer side edge of the right section bar extends to form a second inclined plane (65) with gradually increasing inclined planes; a first plane (66) extends from the outer side edge of the left section bar to the outer side of the room along the indoor direction, and a second plane (67) extends from the outer side edge of the right section bar; glass window slots for assembling glass at two side ends are respectively arranged between the first inclined surface (64) and the first plane (66) and between the second inclined surface (65) and the second plane (67).

5. The novel integrated structure of the mullion-free split window screen as claimed in claim 3, wherein: in the opening of the screen window (7), a screen window groove position for loading the screen window is arranged along the outer sides of the second left section bar (71) and the second right section bar (72), and the screen window is fixed through a fixing piece (10).

6. The novel integrated structure of the mullion-free split window screen, according to claim 1, is characterized in that: the side middle stiles (5) of the two side parts are consistent and symmetrically arranged along the center positions of the opening glass sash (6) and the opening screen sash (7); the side mullion (5) consists of a first connecting piece (101), a second connecting piece (102) and a third connecting piece (103); the first connecting piece (101) and the second connecting piece (102) are respectively installed in the indoor direction and the outdoor direction in a relative mode, the first connecting piece (101) and the opening glass sash (6) are assembled to oppositely open the glass (8), and the second connecting piece (102) and the opening screen sash (7) are assembled to oppositely open the screen window (9);

the third connecting piece (103) is arranged at the outer side parts of the first connecting piece (101) and the second connecting piece (102), an intermediate connecting piece (104) is connected between the third connecting piece (103) and the first connecting piece (101) as well as the middle part of the second connecting piece (102), and a dovetail heat insulation broken bridge (105) is occluded in the middle part of the intermediate connecting piece (104).

7. The novel mullion-free split window screen integrated structure as claimed in claim 6, wherein: the hollow glass roof beam further comprises an outer frame profile (11), and hollow glass is assembled between the outer frame profile (11) and the third split mullion.

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