CN221032173U - Bridge cut-off aluminium push-and-pull door and window casement structure - Google Patents

Abstract

The utility model relates to the technical field of sliding windows and discloses a bridge-cut-off aluminum sliding door and window sash structure, which comprises a sash body, wherein the sash body is rectangular and is formed by four glass sash sectional materials, the glass sash sectional materials comprise inner glass sash sectional materials and outer glass sash sectional materials which are symmetrically arranged, the inner glass sash sectional materials are connected with the outer glass sash sectional materials through heat insulation strips, the sash body is rectangular and is formed by four glass sash sectional materials, the glass sash sectional materials comprise inner glass sash sectional materials and outer glass sash sectional materials which are symmetrically arranged, namely, the structures of the inner glass sash sectional materials and the outer glass sash sectional materials are consistent, and the sash body only needs to be connected and combined by adopting a single sectional material.

Description

Bridge cut-off aluminium push-and-pull door and window casement structure

Technical Field

The utility model relates to the technical field of sliding windows, in particular to a broken bridge aluminum sliding door and window sash structure.

Background

The door and window is one of the necessary components of all buildings, the bridge-cut aluminum door and window is widely applied in the actual life, the bridge-cut aluminum is also called a heat-insulating bridge-cut aluminum section bar, a heat-insulating aluminum alloy section bar, a bridge-cut aluminum alloy, a cold-cut and hot-cut bridge section bar and a bridge-cut aluminum-plastic composite section bar, has more excellent performance than the common aluminum alloy section bar, the bridge-cut aluminum door and window adopts the heat-insulating bridge-cut aluminum section bar and hollow glass, the bridge-cut aluminum has the characteristics of reducing heat conduction, preventing condensation, saving energy, protecting environment, reducing noise and the like, and the bridge-cut aluminum door and window has the functions of saving energy, sound insulation, noise prevention, dust prevention, water prevention and the like. The current bridge cut-off aluminum door and window casement is formed by connecting an inner profile and an outer profile through heat insulation strips, but the bridge cut-off aluminum door and window casement is installed through the inner profile and the outer profile with different structures, and the universality is poor.

Disclosure of utility model

In order to solve the problems in the prior art, the utility model provides a broken bridge aluminum sliding door and window sash structure.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a bridge cut-off aluminium push-and-pull door casement structure, includes the fan body, the fan body comprises four glass casement section bars and is the rectangle form, glass casement section bar includes interior glass casement section bar and the outer glass casement section bar that the symmetry set up, link to each other through the heat insulating strip between interior glass casement section bar and the outer glass casement section bar.

Further, the inner side of the inner glass fan section bar and the inner side of the outer glass fan section bar are provided with cavities, the inner side edges of the cavities are provided with first clamping grooves, and the first clamping grooves of the inner glass fan section bar and the first clamping grooves of the outer glass fan section bar are respectively connected with two ends of the heat insulation strip, so that the heat insulation strip is used for connecting the inner glass fan section bar and the outer glass fan section bar.

Further, the outside limit of cavity extends towards one end has the glass baffle, form glass mounting groove between the glass baffle of interior glass fan section bar and the glass baffle of outer glass fan section bar, the outside limit of cavity extends towards the one end of keeping away from the glass baffle and has first fixture block, and is in the same side with first fixture block on be provided with the second fixture block, be formed with the second draw-in groove between first fixture block and the second fixture block, form the third draw-in groove between the second fixture block of interior glass fan section bar and the second fixture block of outer glass fan section bar.

Further, the inner side of the cavity is provided with 2 first clamping grooves, the heat insulation strip is provided with 2 heat insulation strips, and two ends of the heat insulation strip are respectively clamped in the first clamping grooves of the inner glass fan section bar and the first clamping grooves of the outer glass fan section bar.

Further, the second clamping groove of the inner glass fan section bar is provided with an inner baffle, and the second clamping groove of the outer glass fan section bar is provided with an outer baffle.

Further, the third clamping groove is provided with a pulley assembly.

Further, the third clamping groove is provided with a hooked rabbet section bar.

Compared with the prior art, the utility model has the beneficial effects that: the fan body in rectangular shape is formed by four glass fan sectional materials, the glass fan sectional materials comprise inner glass fan sectional materials and outer glass fan sectional materials which are symmetrical, namely, the structures of the inner glass fan sectional materials and the outer glass fan sectional materials are consistent, and the fan body is only required to be connected and combined by adopting a single sectional material, so that compared with the traditional glass fan sectional materials, the cost of the fan body is reduced, and the installation efficiency is greatly improved.

Drawings

FIG. 1 is a schematic side cross-sectional view of the present utility model;

FIG. 2 is a schematic top view in cross section of the present utility model;

FIG. 3 is a schematic view of the structure of the glass sash profile of the present utility model;

in the figure: the glass fan profile 100, the inner glass fan profile 100a, the outer glass fan profile 100b, the cavity 101, the first clamping groove 102, the glass baffle 103, the glass mounting groove 104, the first clamping block 105, the second clamping block 106, the second clamping groove 107, the third clamping groove 108, the heat insulation strip 200, the inner baffle 300, the outer baffle 400, the pulley assembly 500 and the hooked rabbet profile 600.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific examples, which are not intended to limit the invention, so that those skilled in the art may better understand the invention and practice it.

Referring to fig. 1-3, the present utility model provides a technical solution: the utility model provides a bridge cut-off aluminium push-and-pull door casement structure, includes the fan body, the fan body is rectangular form by four glass casement section bars 100 constitution, glass casement section bar 100 includes interior glass casement section bar 100a and the outer glass casement section bar 100b that the symmetry set up, link to each other through thermal-insulated strip 200 between interior glass casement section bar 100a and the outer glass casement section bar 100b, constitute the fan body that is rectangular form through four glass casement section bars 100, glass casement section bar 100 includes the symmetrical interior glass casement section bar 100a and outer glass casement section bar 100b, the structure of interior glass casement section bar 100a and outer glass casement section bar 100b is unanimous, and the fan body only needs to adopt single section bar to connect the combination, compares traditional push-and-pull door glass casement section bar 100, and not only the cost of fan body is reduced, and installation effectiveness can improve greatly.

The inner glass sash profile 100a and the outer glass sash profile 100b are internally provided with a cavity 101, the inner side edge of the cavity 101 is provided with a first clamping groove 102, the first clamping groove 102 of the inner glass sash profile 100a and the first clamping groove 102 of the outer glass sash profile 100b are respectively connected with two ends of the heat insulation strip 200, so that the heat insulation strip 200 connects the inner glass sash profile 100a and the outer glass sash profile 100 b;

The utility model preferably adopts 2 first clamping grooves 102, the heat insulation strip 200 is provided with 2 heat insulation strips, and two ends of the heat insulation strip 200 are respectively clamped in the first clamping grooves 102 of the inner glass fan section 100a and the first clamping grooves 102 of the outer glass fan section 100 b;

a glass baffle 103 extends towards one end of the outer side of the cavity 101, and a glass mounting groove 104 is formed between the glass baffle 103 of the inner glass fan section 100a and the glass baffle 103 of the outer glass fan section 100 b;

The outer side edge of the cavity 101 extends towards one end far away from the glass baffle 103, a first clamping block 105 is arranged on the same side face with the first clamping block 105, a second clamping groove 107 is formed between the first clamping block 105 and the second clamping block 106, an inner baffle 300 is installed in the second clamping groove 107 of the inner glass fan section 100a, and an outer baffle 400 is installed in the second clamping groove 107 of the outer glass fan section 100 b;

A third clamping groove 108 is formed between the second clamping block 106 of the inner glass sash profile 100a and the second clamping block 106 of the outer glass sash profile 100b, wherein the third clamping groove 108 of the glass sash profile 100 positioned above the sash body is provided with a pulley component 500, a sliding structure of a sliding door leaf is realized, and the third clamping groove 108 of the glass sash profile 100 at the side edge of the sash body is provided with a hooked rabbet profile 600, so that the glass sash profile 100 can be conveniently connected and combined with other profiles, and the formed door and window profile component can meet the installation and use requirements of all parts of a door and a window.

The above embodiments are preferred embodiments of the present utility model, and all similar structures and equivalent modifications are intended to fall within the scope of the present utility model.

Claims (7)

1. The utility model provides a bridge cut-off aluminium push-and-pull door casement structure which characterized in that: the glass fan comprises a fan body, wherein the fan body is formed by four glass fan profiles (100) to be rectangular, the glass fan profiles (100) comprise inner glass fan profiles (100 a) and outer glass fan profiles (100 b) which are symmetrically arranged, and the inner glass fan profiles (100 a) are connected with the outer glass fan profiles (100 b) through heat insulation strips (200).

2. A bridge-cut-off aluminium sliding door and window sash structure according to claim 1, characterized in that: the inside of interior glass fan section bar (100 a), outer glass fan section bar (100 b) is equipped with cavity (101), the medial edge of cavity (101) is equipped with first draw-in groove (102), the both ends of insulating strip (200) are connected respectively in first draw-in groove (102) of interior glass fan section bar (100 a), first draw-in groove (102) of outer glass fan section bar (100 b), make insulating strip (200) link to each other interior glass fan section bar (100 a), outer glass fan section bar (100 b).

3. A bridge-cut-off aluminium sliding door and window sash structure according to claim 2, characterized in that: the glass baffle (103) extends towards one end from the outer side edge of the cavity (101), a glass mounting groove (104) is formed between the glass baffle (103) of the inner glass fan profile (100 a) and the glass baffle (103) of the outer glass fan profile (100 b), a first clamping block (105) extends towards one end far away from the glass baffle (103) from the outer side edge of the cavity (101), a second clamping block (106) is arranged on the same side face with the first clamping block (105), a second clamping groove (107) is formed between the first clamping block (105) and the second clamping block (106), and a third clamping groove (108) is formed between the second clamping block (106) of the inner glass fan profile (100 a) and the second clamping block (106) of the outer glass fan profile (100 b).

4. A bridge-cut-off aluminium sliding door and window sash structure according to claim 2, characterized in that: the inner side of the cavity (101) is provided with 2 first clamping grooves (102), the heat insulation strip (200) is provided with 2 heat insulation strips, and two ends of the heat insulation strip (200) are respectively clamped in the first clamping grooves (102) of the inner glass fan section bar (100 a) and the first clamping grooves (102) of the outer glass fan section bar (100 b).

5. A bridge-cut-off aluminum sliding door and window sash structure according to claim 3, wherein: the second clamping groove (107) of the inner glass fan profile (100 a) is provided with an inner baffle (300), and the second clamping groove (107) of the outer glass fan profile (100 b) is provided with an outer baffle (400).

6. A bridge-cut-off aluminum sliding door and window sash structure according to claim 3, wherein: the third clamping groove (108) is provided with a pulley assembly (500).

7. A bridge-cut-off aluminum sliding door and window sash structure according to claim 3, wherein: and the third clamping groove (108) is provided with a hooked rabbet section bar (600).