CN216588271U - Bridge cut-off heat insulation aluminum alloy outward casement window system - Google Patents

Abstract

The utility model relates to a bridge cut-off heat insulation aluminum alloy outward casement window system, and belongs to the technical field of fixed buildings. The system comprises: the aluminum alloy fixed frame, the aluminum alloy open fan, cavity glass, the aluminum alloy frame is the heat insulating section bar of the inboard equal width of heat insulating strip, realizes the position of aluminum alloy installation component to trade through the same buckle of size, adopts the way preparation aluminum alloy of similar curtain to open the fan in order to reduce the frame width, realizes the effect of narrow frame structure, does not set up the conversion section bar and can realize the free unordered installation of indoor outer glass.

Description

Bridge cut-off heat insulation aluminum alloy outward casement window system

Technical Field

The utility model relates to a bridge cut-off heat insulation aluminum alloy outward casement window system, and belongs to the technical field of fixed buildings.

Background

Along with the development of building technology, building facade aluminum alloy window more and more pursues the effect of public building facade under the requirement that satisfies daily function, and traditional aluminum alloy window all has certain limitation in appearance effect and glass installation, includes following three kinds of common defects: (1) the section of the opening fan is too wide, and the vertical face effect is not concise; (2) the opening fan part needs to be provided with a conversion section bar to realize the built-in of the buckle wire, so that the process and the cost are increased; (3) the process of installing glass indoors and outdoors is limited by engineering construction measures, the installation on the inner side can not be realized when meeting the positions of a wall body and a shear wall, and a scaffold and a hanging basket are needed when installing glass on the outer side. It is desirable to overcome the above-mentioned deficiencies by a complete aluminum alloy window system that reduces the number of constraints under a variety of operating conditions.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a bridge cut-off heat-insulating aluminum alloy outward casement window system aiming at the defects of the background technology, the utility model aims at realizing the appearance effect of a thin and narrow frame and randomly and freely installing indoor and outdoor glass without arranging a conversion section bar, and the technical problems of limitation in appearance effect and glass installation of the traditional aluminum alloy window are solved.

The utility model adopts the following technical scheme for realizing the aim of the utility model:

bridge cut-off heat-insulating aluminum alloy outswinging casement window system includes: the aluminum alloy fixed frame, the aluminum alloy is opened the fan, cavity glass, the aluminum alloy fixed frame includes first frame and second frame, integrated into one piece behind the heat insulating strip is worn with the second frame to first frame, first frame has the first cavity that is used for installing aluminum alloy activity piece or aluminum alloy line ball and is used for installing the aluminum alloy and opens the second cavity of fan, the second frame contains the third cavity that is used for installing aluminum alloy activity piece or aluminum alloy line ball, the buckle size of first cavity and third cavity both sides is the same, cavity glass installs in the recess that forms after aluminum alloy activity piece and aluminum alloy line ball are fixed or install on the frame construction of aluminum alloy opening the fan indoor side.

As a further optimization scheme of the bridge-cut-off heat-insulation aluminum alloy casement window system, when shielding exists on the indoor side, the aluminum alloy movable splicing strips are installed on the buckles of the first frame through screws, the aluminum alloy pressing lines are installed on the buckles of the second frame, and the hollow glass is fixed in the gaps between the aluminum alloy movable splicing strips and the aluminum alloy pressing lines through the aluminum alloy pressing line buckles.

As a further optimization scheme of the bridge-cut-off heat-insulation aluminum alloy casement window system, when the indoor side is not shielded, the aluminum alloy pressing line is installed on the buckle of the first frame, the aluminum alloy movable splicing strip is installed on the buckle of the second frame through a screw, and the hollow glass is fixed in a gap between the aluminum alloy movable splicing strip and the aluminum alloy pressing line through the aluminum alloy pressing line buckle.

As the further optimization scheme of bridge cut-off heat-insulating aluminum alloy casement window system, the aluminum alloy opening sash comprises: the aluminum alloy window sash support plate is connected with the aluminum alloy window sash in a clamped mode, and the hollow glass is installed in a groove formed after the aluminum alloy window sash support plate and the aluminum alloy window sash are connected in the clamped mode.

As a further optimization scheme of the bridge-cut-off heat-insulation aluminum alloy casement window system, ethylene propylene diene monomer rubber sealing strips are filled in the contact parts of the hollow glass and the aluminum alloy movable splicing strips and the contact parts of the hollow glass and the aluminum alloy pressing lines.

As a further optimization scheme of the bridge-cut-off heat-insulation aluminum alloy outward-sliding window system, a sealing rubber strip is filled in a gap between an aluminum alloy window frame and an aluminum alloy window sash, a joint part of an aluminum alloy window sash supporting plate and an aluminum alloy window sash and a gap between the aluminum alloy window frame are filled with the sealing rubber strip, and a gap between the aluminum alloy window sash supporting plate and the aluminum alloy window frame is filled with the sealing rubber strip.

As a further optimization scheme of the bridge cut-off heat insulation aluminum alloy casement window system, an aluminum alloy handle lock is installed on an aluminum alloy window sash.

As a further optimization scheme of the bridge-cut-off heat-insulation aluminum alloy casement window system, a stainless steel anti-falling piece is arranged between an aluminum alloy window frame and an aluminum alloy window sash.

As a further optimization scheme of the bridge-cut-off heat-insulation aluminum alloy outward casement window system, the aluminum alloy open window further comprises a sliding support special for the casement window, and the sliding support special for the casement window is fixed between an aluminum alloy window frame and an aluminum alloy window sash through screws.

By adopting the technical scheme, the utility model has the following beneficial effects:

(1) this application adopts the way preparation aluminum alloy ex-trusions of similar curtain to increase the safe edge section bar and prevent that casement glass from droing, reduce the frame width, weaken casement section bar, reduce the conversion section bar quantity, realize the visual effect of thin narrow frame structure, realize the effect of the ordinary aluminum alloy window public establishment of facade.

(2) The aluminum alloy fixing frame is designed into the aluminum alloy section with the same width of the inner side of the heat insulation strip, the mounting positions of the aluminum alloy movable splicing strips and the aluminum alloy pressing lines are flexibly adjusted through the buckle structures with the same size, the disordered mounting of indoor and outdoor glass is realized under various working conditions, the problem of system solution under the restriction conditions can be reduced, and the production efficiency is improved.

Drawings

Fig. 1 is an external elevation effect diagram of the bridge cut-off heat insulation aluminum alloy external casement window system.

FIG. 2 is a transverse sectional view of the position A when there is a wall or other shelter on the indoor side of the bridge-cut-off heat-insulating aluminum alloy casement window system of the utility model.

FIG. 3 is a transverse sectional view of the position A when the indoor side of the bridge-cut-off heat-insulating aluminum alloy outer casement window system is not shielded.

FIG. 4 is a transverse sectional view of the position B when there is a wall or other shelter on the indoor side of the bridge-cut-off heat-insulating aluminum alloy casement window system of the utility model.

FIG. 5 is a transverse sectional view of the position B when the indoor side of the bridge-cut-off heat-insulating aluminum alloy outer casement window system is not shielded.

Fig. 6 is a transverse sectional view of the bridge-cutoff heat-insulating aluminum alloy casement window system C of the utility model.

Fig. 7 is a transverse sectional view of the bridge-cutoff heat-insulating aluminum alloy casement window system D of the utility model.

Fig. 8 is a vertical sectional view at position E of the bridge-cutoff heat-insulating aluminum alloy casement window system of the utility model.

Fig. 9 is a vertical sectional view of the bridge-cutoff heat-insulating aluminum alloy casement window system F of the utility model.

Fig. 10(a) and 10(b) are structural diagrams of the aluminum alloy fixed frame with the section of the profile being a frame and a middle frame.

FIG. 11 is a structural view of an aluminum alloy window frame according to the present invention.

Fig. 12 is a structural view of an aluminum alloy window sash of the present invention.

The reference numbers in the figures illustrate: 1. the window frame comprises an aluminum alloy fixed frame, 1-1 parts of an aluminum alloy fixed frame, a first frame, 1-2 parts of an aluminum alloy fixed frame, a second frame, a first cavity, b parts of a second cavity, c parts of a third cavity, 2 parts of aluminum alloy movable splicing strips, 3 parts of aluminum alloy pressing lines, 4 parts of heat insulation strips, 5 parts of ethylene propylene diene monomer rubber sealing strips, 6 parts of aluminum alloy window sash supporting plates, 7 parts of aluminum alloy window frames, 8 parts of aluminum alloy window sashes, 9 parts of stainless steel anti-falling parts, 10 parts of aluminum alloy handle locks, 11 parts of special sliding supports for casement windows, and 12 parts of hollow tempered Low-e glass.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 shows an external vertical surface effect diagram of the bridge cut-off heat insulation aluminum alloy casement window system, the opening window adopts a window frame separation mode, a protective edge section is added to prevent window sash glass from falling off, the width of the protective edge section is reduced by 50mm compared with that of a traditional casement window sash, the appearance effect is weakened, meanwhile, a stainless steel anti-falling part is arranged between the window frames of the opening window, the opening window is prevented from falling under the condition of hardware failure, and sufficient water tightness and air tightness are ensured through three sealing rubber strips.

Referring to fig. 10, the section of the aluminum alloy fixing frame 1 is designed to be a frame or a mullion within an applicable range, the section of the aluminum alloy fixing frame 1 shown in fig. 10(a) is suitable for a frame, and the section of the aluminum alloy fixing frame 1 shown in fig. 10(b) is suitable for a mullion and comprises a first frame 1-1 and a second frame 1-2, wherein the first frame 1 and the second frame 1-2 are integrally formed after a heat insulating strip 4 is penetrated in a factory. As shown in fig. 10(b), the first frame 1-1 includes a first cavity a for installing the aluminum alloy movable joint strip 2 or the aluminum alloy pressing line 3 and a second cavity b for installing the aluminum alloy window frame 7, the second frame 1-2 includes a third cavity c for installing the aluminum alloy movable joint strip 2 or the aluminum alloy pressing line 3, the first cavity a and the third cavity c have the same snap size d, and the design is designed to make the inner sides of the heat insulation strips have the same width, that is, the inner and outer 2 closed profiles of the heat insulation strips have the same width.

Referring to fig. 1, 2 and 4, when a wall body or other shielding exists on the indoor side, the transverse section views of the position A and the position B of the bridge-cut-off heat-insulation aluminum alloy outer casement window system shown in fig. 1 are shown in fig. 2 and 4, in the application, an aluminum alloy 45-degree splicing strip and an aluminum alloy pressing line are selected as installation members of the hollow glass, an aluminum alloy movable splicing strip 2 is installed on a buckle of a first frame 1-1 through a screw, an aluminum alloy pressing line 3 is installed on a buckle of a second frame 1-2, hollow tempered Low-e glass 12 is fixed in a gap between the aluminum alloy movable splicing strip 2 and the aluminum alloy pressing line 3 through the aluminum alloy pressing line 3, and ethylene propylene diene monomer rubber sealing strips 5 are respectively arranged at the contact position of the hollow tempered Low-e glass 12 and the aluminum alloy movable splicing strip 2 and at the contact position of the hollow tempered Low-e glass 12 and the aluminum alloy pressing line 3.

Referring to fig. 1, fig. 3 and fig. 5, because the aluminum alloy fixed frame 1 is a bridge cut-off heat insulation profile with buckles of the same size, the installation positions of the aluminum alloy movable splicing strips 2 and the aluminum alloy pressing lines 3 are changed when the indoor side is not shielded, the disordered installation of indoor and outdoor glass can be realized, and the engineering installation efficiency is improved, the transverse section views of the bridge cut-off heat insulation aluminum alloy outer casement window system A and B in the fig. 1 when the indoor side is not shielded are shown in fig. 3 and fig. 5, the aluminum alloy pressing lines 3 are installed on the buckles of the first frame 1-1, the aluminum alloy movable splicing strips 2 are installed on the buckles of the second frame 1-2 through screws, and the hollow tempered Low-e glass 12 is fixed through the buckles of the aluminum alloy pressing lines 3.

Referring to fig. 6 and 7, the aluminum alloy profile is used for achieving the effect of common aluminum alloy window public building of the outer vertical face, the sash profile is weakened, the using amount of the conversion profile is reduced, the aluminum alloy window frame 7 is installed on the first frame 1-1 through screws, the aluminum alloy movable splicing strips 2 are installed in the buckles of the second frame 1-2 through screws, the aluminum alloy window sash 8 is clamped with the aluminum alloy window frame 7, the stainless steel anti-falling piece 9 is assembled between the aluminum alloy window frame 7 and the aluminum alloy window sash 8, the aluminum alloy window sash supporting plate 6 is clamped with the aluminum alloy window sash 8, the central control tempered Low-e glass 12 is installed in a groove formed after the aluminum alloy window sash supporting plate 6 is clamped with the aluminum alloy window sash 8, and the stainless steel anti-falling piece 9 is fixed between the aluminum alloy window frame 7 and the aluminum alloy window sash 8 through screws. The regions shown by the three circles in fig. 6 represent: sealing rubber strips are filled in the gaps between the aluminum alloy window frame 7 and the aluminum alloy window sash 8, the joint part between the aluminum alloy window sash supporting plate 6 and the aluminum alloy window sash 8 and the gap between the aluminum alloy window frame 7, the sealing rubber strips are filled in the gaps between the aluminum alloy window sash supporting plate 6 and the aluminum alloy window frame 7, and three sealing rubber strips ensure the enough water tightness and air tightness of the opening sash. The structure of the aluminum alloy window frame 7 is shown in fig. 11, and the structure of the aluminum alloy window sash 8 is shown in fig. 12. For the nodes of the mullion part, as shown in fig. 7, the aluminum alloy handle lock 10 is installed on the aluminum alloy window sash. Vertical section views at positions E and F of the bridge-cut-off heat-insulation aluminum alloy external casement window system shown in fig. 1 are shown in fig. 8 and 9, and a sliding support 11 special for a casement window is fixed between an aluminum alloy window frame 7 and an aluminum alloy window sash 8 through screws.

In summary, the broken bridge heat insulation aluminum alloy outer casement window system can achieve the effect of public building of a common aluminum alloy window on the outer vertical surface, weaken window sash sectional materials, reduce the consumption of conversion sectional materials, and can achieve the purpose of reducing the restriction conditions under various working conditions, so that the production efficiency is improved.

Claims (9)

1. Bridge cut-off heat-insulating aluminum alloy outswinging casement window system which is characterized by comprising: the aluminum alloy opening sash and the hollow glass are fixed on the aluminum alloy frame, the aluminum alloy frame comprises a first frame and a second frame, the first frame and the second frame are integrally formed after penetrating through the heat insulation strip, the first frame is provided with a first cavity for installing the aluminum alloy movable splicing strip or the aluminum alloy pressing line and a second cavity for installing the aluminum alloy opening sash, the second frame comprises a third cavity for installing the aluminum alloy movable splicing strip or the aluminum alloy pressing line, the sizes of the buckles on the two sides of the first cavity and the third cavity are the same, and the hollow glass is installed in a groove formed after the aluminum alloy movable splicing strip is fixed with the aluminum alloy pressing line or is installed on a frame structure on the inner side of the aluminum alloy opening sash.

2. The bridge cut-off heat insulation aluminum alloy outward casement window system according to claim 1, wherein when a shield exists on the indoor side, the aluminum alloy movable assembling strip is installed on the buckle of the first frame through a screw, the aluminum alloy pressing line is installed on the buckle of the second frame, and the hollow glass is fixed in a gap between the aluminum alloy movable assembling strip and the aluminum alloy pressing line through the aluminum alloy pressing line buckle.

3. The bridge cut-off heat insulation aluminum alloy outward casement window system according to claim 1, wherein when the indoor side is free from shielding, the aluminum alloy pressing line is installed on a buckle of the first frame, the aluminum alloy movable splicing strip is installed on a buckle of the second frame through a screw, and the hollow glass is fixed in a gap between the aluminum alloy movable splicing strip and the aluminum alloy pressing line through an aluminum alloy pressing line buckle.

4. The bridge-cut-off heat-insulating aluminum alloy casement window system according to claim 1, wherein the aluminum alloy opening sash comprises: the aluminum alloy window sash support plate is connected with the aluminum alloy window sash in a clamped mode, and the hollow glass is installed in a groove formed after the aluminum alloy window sash support plate is connected with the aluminum alloy window sash in the clamped mode.

5. The bridge-cut-off heat-insulating aluminum alloy outward casement window system according to claim 1, wherein ethylene propylene diene monomer rubber seals are filled in the contact part of the hollow glass and the aluminum alloy movable splicing strips and the contact part of the hollow glass and the aluminum alloy pressing lines.

6. The bridge-cut-off heat-insulating aluminum alloy outward-sliding window system according to claim 4, wherein a sealing rubber strip is filled in a gap between the aluminum alloy window frame and the aluminum alloy window sash, a clamping part between the aluminum alloy window sash support plate and the aluminum alloy window sash and a gap between the aluminum alloy window frame are filled with the sealing rubber strip, and a gap between the aluminum alloy window sash support plate and the aluminum alloy window frame is filled with the sealing rubber strip.

7. The bridge-cut-off heat-insulating aluminum alloy casement window system according to claim 4, wherein an aluminum alloy handle lock is installed on the aluminum alloy window sash.

8. The bridge-cut-off heat-insulating aluminum alloy casement window system according to claim 4, wherein a stainless steel anti-falling piece is arranged between the aluminum alloy window frame and the aluminum alloy window sash.

9. The bridge-cut-off heat-insulating aluminum alloy outward casement window system according to claim 4, wherein the aluminum alloy open window further comprises a special sliding support for the casement window, and the special sliding support for the casement window is fixed between the aluminum alloy window frame and the aluminum alloy window sash through screws.

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