CN217581816U - Energy-saving aluminum alloy door and window reinforcing system - Google Patents

Abstract

An energy-saving aluminum alloy door and window reinforcing system belongs to the field of aluminum alloy doors and windows, and comprises a common upright post, a left pressing strip, left glass, a right pressing strip, upper section steel, an upper composite section steel, an upper aluminum alloy section steel, right glass, lower section steel, a lower aluminum alloy section steel, a lower composite section steel and a heat insulation material; the vertical column of the door and window has the characteristics of reinforcing a large area of vertical columns of the door and window and not changing the vertical surface shape.

Description

Energy-saving aluminum alloy door and window reinforcing system

Technical Field

The utility model belongs to al-alloy door & window field, in particular to great door & window of area is to reinforcing system of door and window stand.

Background

In the field of doors and windows, large-size doors and windows are often encountered, and particularly when the doors and windows are applied to curtain walls, in order to meet the wind pressure resistance of the doors and windows, the cross sections of vertical columns or cross beams around the doors and windows are generally increased for energy-saving aluminum alloy doors and windows; however, for some occasions, such as curtain wall windows, the requirement for the visual effect of the whole facade is high, and the method for increasing the sectional area of the upright post or the cross beam profile is not suitable for use.

Disclosure of Invention

Need strengthen the stand to present large tracts of land aluminum alloy door and window and support, keep the little requirement of facade form change simultaneously again, the utility model provides a can enough increase stand intensity, can guarantee the unchangeable energy-conserving aluminum alloy door and window reinforcing system of door and window outward appearance again, concrete technical scheme is, an energy-conserving aluminum alloy door and window reinforcing system, its characterized in that: the energy-saving aluminum alloy door and window reinforcing system comprises a common upright post, a left batten, left glass, a right batten, upper section steel, an upper composite section, an upper aluminum alloy section, right glass, lower section steel, a lower aluminum alloy section, a lower composite section and a heat insulation material; the common upright post is arranged on one side of the reinforcing upright post and forms two side edges of the door and window with the reinforcing upright post or other common upright posts; the left pressing strip is arranged on the common upright post and elastically clamped with the common upright post, so that the left glass can be pressed tightly; the left glass is arranged between the common upright post and the reinforced upright post, and the periphery of the left glass is hermetically connected with the common upright post, the reinforced upright post, the upper cross beam and the lower cross beam; the right pressing strip is arranged on the reinforcing upright post, is positioned on the right side of the left glass and is elastically clamped with the reinforcing upright post; the upper section steel is arranged in a cavity in the upper aluminum alloy section and is positioned in the upper composite section; the upper composite section is made of glass fiber reinforced materials, wraps the periphery of the upper section steel, is positioned in the inner cavity of the upper aluminum alloy section together with the upper section steel and is connected with the upper aluminum alloy section; the upper aluminum alloy section is arranged on the upper side of the lower aluminum alloy section, the right glass connected with the lower aluminum alloy section through the heat insulation bridge is arranged between the reinforcing upright post and the other upright post on the right side, and is respectively connected with the two upright posts, the upper cross beam and the lower cross beam in a sealing way; the lower section steel is arranged inside the lower aluminum alloy section and is wrapped in the lower composite section; the lower aluminum alloy section is arranged on the lower side of the upper aluminum alloy section and is connected with the upper aluminum alloy section through a heat insulation bridge to form an aluminum section main body of the reinforced upright post; the lower composite section is wrapped on the periphery of the lower section steel, is positioned in the inner cavity of the lower aluminum alloy section and is connected with the inner cavity of the lower aluminum alloy section; the heat insulation material is positioned between the upper aluminum alloy section and the lower aluminum alloy section and is made of hard polyurethane heat insulation material.

Furthermore, the inner cavity of the lower aluminum alloy section where the lower section steel is arranged is open.

Furthermore, the section of the heat insulation material is of a U-shaped strip structure, and an opening of the U-shaped structure is clamped on the side of the lower section steel wrapped with the lower composite section bar to isolate the lower section steel, the upper aluminum alloy section bar and the heat insulation bridge.

Furthermore, the two heat insulation bridges are positioned between the upper aluminum alloy section and the lower aluminum alloy section, and two ends of the two heat insulation bridges are respectively connected with the upper aluminum alloy section and the lower aluminum alloy section.

Advantageous effects

The beneficial effects of the utility model reside in that, can satisfy the reinforcing support of large tracts of land door and window under the condition that does not basically change outer facade shape.

Drawings

FIG. 1 is a schematic view of a conventional column reinforcement structure

FIG. 2 is a schematic structural diagram of the present invention

A. The novel glass press comprises an existing common upright, an existing glass press line, a left existing glass, a right existing upright, a right existing glass press line, a right existing glass, a reinforcing structure of an existing upright, a 1 common upright, a 2 left batten, a 3 left glass, a 4 right batten, a 5 upper section steel, a 6 upper composite section, a 7 upper aluminum alloy section, a 8 right glass, a 9 lower section steel, a 10 lower aluminum alloy section, a 11 lower composite section steel and a 12 heat insulation material.

Detailed Description

In order to better explain the technical scheme of the utility model, the specific implementation mode of the utility model is further explained by combining the attached drawings, as shown in fig. 2, in the example, the multi-layer hollow heat-insulating glass which is general in the industry is selected and used as the left glass 3 and the right glass 8 respectively, the common upright post which is general in the industry is selected and used as the common upright post 1, the glass pressing line section which is general in the industry is selected and used as the left pressing bar 2 and the right pressing bar 4, and the reinforced section steel which is general in the industry is selected and used as the upper section steel 5 and the lower section steel 9 according to the different cross-sectional sizes of the corresponding aluminum alloy sections; and the glass fiber reinforced composite section material which is common in the industry is selected as an upper conforming section material 6 and a lower conforming section material 11 respectively, and the hard polyurethane heat insulation material which is common in the industry is selected as a heat insulation material 12; arranging the common upright post 1 at one side of a reinforced upright post, wherein the reinforced upright post is a combination consisting of elements of an upper aluminum alloy section 7, a lower aluminum alloy section 10, a heat insulation bridge, an upper section steel 5, an upper composite section steel 6, a lower section steel 9, a lower composite section steel 11 and a heat insulation material 12; the reinforcing upright post or other common upright posts form two side edges of the door and window; the left pressing strip 2 is arranged on the common upright post 1 and elastically clamped with the common upright post 1, so that the left glass 3 can be pressed; the left glass 3 is arranged between the common upright post 1 and the reinforced upright post, and the periphery of the left glass is hermetically connected with the common upright post 1, the reinforced upright post, the upper cross beam and the lower cross beam; the right pressing strip 4 is arranged on the reinforcing upright post, is positioned on the right side of the left glass 3 and is elastically clamped with the reinforcing upright post; installing the upper section steel 5 in a cavity inside an upper aluminum alloy section 7 and locating inside an upper composite section 6; wrapping the upper composite section 6 on the periphery of the upper section steel 5, and positioning the upper composite section and the upper section steel 5 together in an inner cavity of an upper aluminum alloy section 7 to be connected with the upper aluminum alloy section 7; the upper aluminum alloy section 7 is arranged on the upper side of the lower aluminum alloy section 10 and is connected with the lower aluminum alloy section 10 through a heat insulation bridge; the right glass 8 is arranged between the reinforcing upright post and the other upright post on the right side and is respectively connected with the two upright posts, the upper cross beam and the lower cross beam in a sealing way; the lower section steel 9 is arranged inside a lower aluminum alloy section bar 10 and is wrapped in a lower composite section bar 11; the lower aluminum alloy section 10 is arranged at the lower side of the upper aluminum alloy section 7 and is connected with the upper aluminum alloy section 7 through a heat insulation bridge to form an aluminum section main body of the reinforced upright post; wrapping the lower composite section bar 11 at the periphery of the lower section bar 9 and in the inner cavity of the lower aluminum alloy section bar 10, and arranging the inner cavity of the lower aluminum alloy section bar 10 into a U shape to be buckled and connected with the inner cavity of the lower aluminum alloy section bar 10; will insulation material 12 install and be located between aluminum alloy ex-trusions 7 and lower aluminum alloy ex-trusions 10, make the U type by rigid polyurethane insulation material to with wrap up the lower shaped steel 9 lock that has lower composite section 11, just so accomplished the utility model discloses an implementation.

Claims (4)

1. The utility model provides an energy-conserving al-alloy door & window reinforcing system which characterized in that: the energy-saving aluminum alloy door and window reinforcing system comprises a common upright post, a left batten, left glass, a right batten, upper section steel, an upper composite section, an upper aluminum alloy section, right glass, lower section steel, a lower aluminum alloy section, a lower composite section and a heat insulation material; the common upright post is arranged on one side of the reinforcing upright post and forms two side edges of the door and window with the reinforcing upright post or other common upright posts; the left pressing strip is arranged on the common upright post and elastically clamped with the common upright post, so that the left glass can be pressed tightly; the left glass is arranged between the common upright post and the reinforced upright post, and the periphery of the left glass is hermetically connected with the common upright post, the reinforced upright post, the upper cross beam and the lower cross beam; the right pressing strip is arranged on the reinforcing upright post, is positioned on the right side of the left glass and is elastically clamped with the reinforcing upright post; the upper section steel is arranged in a cavity in the upper aluminum alloy section and is positioned in the upper composite section; the upper composite section is made of glass fiber reinforced materials, wraps the periphery of the upper section steel, is positioned in the inner cavity of the upper aluminum alloy section together with the upper section steel and is connected with the upper aluminum alloy section; the upper aluminum alloy section is arranged on the upper side of the lower aluminum alloy section, the right glass connected with the lower aluminum alloy section through a heat insulation bridge is arranged between the reinforcing upright post and the other upright post on the right side, and is respectively connected with the two upright posts, the upper cross beam and the lower cross beam in a sealing way; the lower section steel is arranged inside the lower aluminum alloy section and is wrapped in the lower composite section; the lower aluminum alloy section is arranged on the lower side of the upper aluminum alloy section and is connected with the upper aluminum alloy section through a heat insulation bridge to form an aluminum section main body of the reinforced upright post; the lower composite section is wrapped on the periphery of the lower section steel, is positioned in the inner cavity of the lower aluminum alloy section and is connected with the inner cavity of the lower aluminum alloy section; the heat insulation material is positioned between the upper aluminum alloy section and the lower aluminum alloy section and is made of a hard polyurethane heat insulation material.

2. The energy-saving aluminum alloy door and window reinforcement system of claim 1, wherein: the inner cavity of the lower aluminum alloy section where the lower section steel is arranged is open.

3. The energy-saving aluminum alloy door and window reinforcing system as claimed in claim 1, wherein: the heat insulation material is of a strip structure with a U-shaped section, and an opening of the U-shaped section is clamped on the side edge of the lower section steel wrapped with the lower composite section bar to isolate the lower section steel, the upper aluminum alloy section bar and the heat insulation bridge.

4. The energy-saving aluminum alloy door and window reinforcement system of claim 1, wherein: the two heat insulation bridges are positioned between the upper aluminum alloy section and the lower aluminum alloy section, and two ends of the two heat insulation bridges are respectively connected with the upper aluminum alloy section and the lower aluminum alloy section.

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