CN111335774A

CN111335774A - Assembled energy-conserving aluminium frame for window

Info

Publication number: CN111335774A
Application number: CN202010203306.2A
Authority: CN
Inventors: 狄峡; 赵华; 凌剑; 张长林; 赵恒亮
Original assignee: Shanghai Gaoxin Energy Saving Co ltd
Current assignee: Shanghai Gaoxin Energy Saving Co ltd
Priority date: 2020-03-20
Filing date: 2020-03-20
Publication date: 2020-06-26
Anticipated expiration: 2040-03-20
Also published as: CN111335774B

Abstract

The invention discloses an assembled energy-saving aluminum outer frame for a window, which comprises a window auxiliary frame and a wall connecting piece which are formed in a factory manner, wherein the side, close to a wall, of the window auxiliary frame is connected with the wall connecting piece, and the wall connecting piece is connected with a wall of a window hole in a field through a fastening piece or is poured with concrete of the wall in a factory manner; the side, close to the window auxiliary frame, of the window frame is installed in the side, close to the window frame, of the window auxiliary frame through a sealing rubber strip, and the side, close to the window frame, of the window auxiliary frame is opposite to the side, close to the wall, of the window auxiliary frame. For the fabricated building, the window auxiliary frame and the building blocks are poured into a whole, so that the problem of sealing and water seepage between the traditional auxiliary frame and a wall body can be solved, and meanwhile, the problem of cross operation of the outer vertical face of personnel construction safety is solved by installing the fabricated window body indoors.

Description

Assembled energy-conserving aluminium frame for window

Technical Field

The invention relates to the field of building door and window systems, in particular to an energy-saving aluminum outer frame for an assembled window.

Background

With the continuous development of modern building door and window technology and the vigorous popularization and application of assembly type buildings in recent years, the engineering of using door and window auxiliary frames is more and more by referring to the foreign advanced application technology. And the form of the auxiliary frame is changed from the original steel auxiliary frame into more aluminum alloy auxiliary frames or non-metal energy-saving auxiliary frames due to the problems of energy consumption, corrosion and water seepage, and the non-metal auxiliary frames cannot be used for integral casting of the fabricated building.

Disclosure of Invention

The invention aims to provide an assembled energy-saving aluminum outer frame for a window, which has excellent waterproof performance and heat preservation performance and solves the problems in the prior art of the auxiliary frame for the window and the door.

The technical problem solved by the invention can be realized by adopting the following technical scheme:

an assembled energy-saving aluminum outer frame for a window comprises a window auxiliary frame and a wall connecting piece which are formed in a factory mode, wherein the side, close to a wall, of the window auxiliary frame is connected with the wall connecting piece, and the wall connecting piece is connected with a wall of a window hole in a field through a fastening piece or is poured with concrete of the wall in a factory mode; the side, close to the window auxiliary frame, of the window frame is installed in the side, close to the window frame, of the window auxiliary frame through a sealing rubber strip, and the side, close to the window frame, of the window auxiliary frame is opposite to the side, close to the wall, of the window auxiliary frame.

In a preferred embodiment of the present invention, the window sub-frame includes a left side pressing line, a right side pressing line, a window lower pressing line, a window upper pressing line, a left side outer window sub-frame, a right side outer window sub-frame, a window lower outer window sub-frame, and a window upper outer window sub-frame; the wall connecting pieces comprise a left wall connecting piece, a right wall connecting piece, a lower window wall connecting piece and an upper window wall connecting piece; the left side pressing line and the left side outer window auxiliary frame are fixed on the left side wall connecting piece through fasteners; the right side pressing line and the right side outer window auxiliary frame are fixed on the right side wall connecting piece through fasteners; the lower window pressing line and the lower outer window auxiliary frame are fixed on the lower window wall body connecting piece by fasteners; the upper press line of the window and the auxiliary frame of the upper outer window of the window are fixed on the wall connecting piece on the window by fasteners.

In a preferred embodiment of the present invention, the side of the window subframe or/and the wall connecting member adjacent to the outdoor wall is sealed by an outer wall sealant.

In a preferred embodiment of the present invention, heat insulation strips are disposed between the left side pressing line and the left side outer window sub-frame, between the right side pressing line and the right side outer window sub-frame, between the window lower pressing line and the window lower outer window sub-frame, and between the window upper pressing line and the window upper outer window sub-frame.

In a preferred embodiment of the invention, after the wall connecting piece is connected with the wall body of the window opening through the fastener on site, waterproof cement mortar is filled between the wall connecting piece and the wall body of the window opening.

Due to the adoption of the technical scheme, after the energy-saving aluminum outer frame for the assembled window is pre-installed, the closing method of the indoor and outdoor window frames on site is not influenced by the installation progress, and the window matched with the energy-saving aluminum outer frame can be installed indoors, so that the operation safety of constructors is greatly improved.

The energy-saving aluminum outer frame for the assembled window greatly improves the drainage performance of the window.

The energy-saving aluminum outer frame for the assembled window and the window matched with the energy-saving aluminum outer frame can be produced and installed in a factory in a large-scale production manner.

After the window frame, the window sash, the glass and other accessories of the window matched with the invention are completely assembled, the window frame, the window sash, the glass and other accessories can be assembled with the invention in a factory and then assembled and installed indoors with the wall connecting piece which is installed in concrete in advance on site, thereby playing a very good role in protecting products on site.

Due to the adoption of the technical scheme, the invention has good effects on effectively solving the problems of product protection, mutual noninterference of professional work and construction, site construction progress, product quality and the like through the structural design of the window subframe system of the assembled window, the pre-pouring with concrete, the large-scale production assembly in an integral window factory and the site assembly type installation mode.

The invention can be used for traditional window-hole type buildings and is more suitable for assembly type buildings, and one of the main functions is that the drainage system can not let water penetrate into the outer wall of the building and can not penetrate into the indoor space. In addition, the heat insulation strips can prevent heat transfer, thereby playing a role in energy conservation; in addition, compared with the traditional product without the auxiliary frame or the steel auxiliary frame, the outer frame has good protection effect on the window frame and the window sash due to the larger coating size. In addition, after the auxiliary frame is installed, other window frames, window sashes and the like can be installed at any appropriate time thereafter, and each professional worker can construct the auxiliary frame independently without mutual interference, so that the construction progress of the building can be greatly accelerated. And because the rest door and window components are finished from the indoor after the outer frame is installed, the safety of construction operators is better guaranteed.

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 of 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 a schematic structural view of a window system to which a fabricated energy-saving aluminum window casing according to embodiment 1 of the present invention is applied, as viewed from the outside.

Fig. 2 is a sectional view a-a of fig. 1.

Fig. 3 is a sectional view B-B of fig. 1.

Fig. 4 is a schematic structural view of a window system using a fabricated energy-saving aluminum window casing according to embodiment 2 of the present invention, as seen from the indoor side.

Fig. 5 is a sectional view a-a of fig. 4.

Fig. 6 is a sectional view B-B of fig. 4.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below.

Example 1

Referring to fig. 1 to 3, the energy-saving aluminum external frame for a prefabricated window of the present embodiment is provided in a building facade window and door system, so that the window system of the present embodiment is described as follows:

the integrally assembled window of this embodiment is composed of an assembled window unit 100 and a window subframe 200, the assembled window unit 100 includes a window frame 110, a fixed leaf portion 120 and an opening leaf portion 130 which are assembled together in a factory, the fixed leaf portion 120 and the opening leaf portion 130 are installed in the window frame 110;

the method comprises the following steps: the window frame 110 includes an outer window frame 111 and an inner window frame 112, and the glass 121 in the fixed sash part 120 is factory-assembled with the outer window frame 111 and the inner window frame 112 through a glass spacer 122 and a weather-resistant sealant 123. The opening leaf portion 130 is installed in the window frame 110 using a hinge and a window lock. The outer window frame 111 and the inner window frame 112 are insulated by a heat insulating strip 113.

The window subframe 200 includes a left wall connector 211, a right wall connector 212, a window lower wall connector 213, a window upper wall connector 214, a left side pressure line 221, a right side pressure line 222, a window lower pressure line 223, a window lower upper pressure line 224, a left side outer window subframe 231, a right side outer window subframe 232, a window lower outer window subframe 233, and a window upper outer window subframe 234.

The left side press line 221 and the left side outer window subframe 231 are connected to the left wall connector 211 by a fastener 241, and the left side press line 221 and the side of the left side outer window subframe 231 adjacent to the wall 300 are connected by a heat insulating strip 251.

The right side press line 222 and the right side outer window subframe 232 are connected to the right wall connector 212 by a fastener 242, and the right side press line 222 and the side of the right side outer window subframe 232 adjacent to the wall 300 are connected by an insulating strip 252.

The lower window pressing line 223 and the lower window subframe 233 are connected with the lower window wall connector 213 through a fastener 243, and the lower window pressing line 223 and the side of the lower window subframe 233 adjacent to the wall 300 are connected through a heat insulating strip 253.

The upper window press line 224 and the upper window subframe 234 are connected to the upper window wall connector 214 by fasteners 244, and the upper window press line 224 and the side of the upper window subframe 234 adjacent to the wall 300 are connected by a heat insulating strip 254.

When the window unit 100 is assembled, the side of the window frame 110 adjacent to the left side pressing line 221, the right side pressing line 222, the window lower pressing line 223, the window lower pressing line 224, the left side outer window subframe 231, the right side outer window subframe 232, the window lower outer window subframe 233 and the window upper outer window subframe 234 are respectively inserted between the side of the left side pressing line 221 adjacent to the window frame 110 and the side of the left side outer window subframe 231 adjacent to the window frame 110, between the side of the right side pressing line 222 adjacent to the window frame 110 and the side of the right side outer window subframe 232 adjacent to the window frame 110, between the side of the window lower pressing line 223 adjacent to the window frame 110 and the side of the window lower outer window subframe 110, between the side of the window upper pressing line 224 adjacent to the window frame 110 and the side of the window upper outer window subframe 234 adjacent to the window frame 110, and the side of the left side pressing line 221 adjacent to the window frame 110, the side of the right side pressing line 222 adjacent to the window frame 110, the side pressing line 223 adjacent to the window frame 110, The side of the lower and upper window pressing line 224 adjacent to the window frame 110 is sealed with the inner window frame 112 by

sealant strips

221a, 222a, 223a, 224a, the side of the left outer window subframe 231 adjacent to the window frame 110, the side of the right outer window subframe 232 adjacent to the window frame 110, the side of the lower outer window subframe 233 adjacent to the window frame 110, and the side of the upper outer window subframe 234 adjacent to the window frame 110 are sealed with the outer window frame 111 by

sealant strips

231a, 232a, 233a, 234 a.

The left side pressing line 221 is disposed opposite to the side of the left side pressing line 221 adjacent to the window frame 110, and the left side outer window subframe 231 is disposed opposite to the side of the wall 300 adjacent to the window frame 110.

The right side pressing line 222 is disposed opposite to the side of the right side pressing line 222 adjacent to the wall 300 and the side of the right side outer window subframe 232 adjacent to the window frame 110.

The side of the lower window pressing line 223 adjacent to the wall 300 is opposite to the side of the lower window pressing line 223 adjacent to the window frame 110, and the side of the lower outer window subframe 233 adjacent to the wall 300 is opposite to the side of the lower outer window subframe 233 adjacent to the window frame 110.

The side of the upper window pressing line 224 adjacent to the wall 300 is opposite to the side of the upper window pressing line 224 adjacent to the window frame 110, and the side of the upper outer window subframe 234 adjacent to the wall 300 is opposite to the side of the upper outer window subframe 234 adjacent to the window frame 110.

This embodiment is used in prefabricated buildings. The left wall connection member 211, the right wall connection member 212, the window lower wall connection member 213, and the window upper wall connection member 214 are cast together with the concrete of the wall 300, so that the integrally fabricated window of this embodiment is cast as a fabricated block together with the concrete of the wall 300.

After pouring, the outer wall sealant 400 is used for sealing between the left side outer window subframe 231, the right side outer window subframe 232, the lower window outer window subframe 233, the upper window outer window subframe 234 and the structural hole finish surface 330 of the wall body 300. The inner wall surface of the wall 300 is decorated with an inner insulation layer 310 and an inner decoration surface 320, the inner insulation layer 310 is positioned on the inner wall surface of the wall 300, and the inner decoration surface 320 is positioned on the surface of the inner insulation layer 310.

The upper surface of the structural hole completing surface 330 of the wall body 300 is coated with a JS waterproofing agent 340 and decorated with an outdoor decoration layer 350.

Example 2

Referring to fig. 4 to 6, the energy-saving aluminum external frame for a fabricated window of the embodiment is provided in a building facade window and door system, and the structure of the integrally fabricated window of the embodiment is basically the same as that of the integrally fabricated window of embodiment 1 except that:

the integrally assembled window of this embodiment is used for a constructed window opening. During assembly, the integrally assembled window of this embodiment is shipped to the site, and then the left wall connector 211, the right wall connector 212, the window lower wall connector 213, and the window upper wall connector 214 are connected to the wall 300 using the

fasteners

211a, 212a, 213a, 214a, respectively. And outer wall sealants 410 are adopted for sealing between the left side outer window subframe 231, the right side outer window subframe 232, the lower window outer window subframe 233, the upper window outer window subframe 234, the left side wall body connecting piece 211, the right side wall body connecting piece 212, the lower window wall body connecting piece 213 and the upper window wall body connecting piece 214 and the wall body 300 of the window hole.

And waterproof cement mortar 360 is filled between the left wall body connecting piece 211, the right wall body connecting piece 212, the window lower wall body connecting piece 213, the window upper wall body connecting piece 214 and the wall body 300 of the window opening.

The inner wall surface of the wall 300 is decorated with an inner insulation layer 310 and an inner decoration surface 320, the inner insulation layer 310 is positioned on the inner wall surface of the wall 300, and the inner decoration surface 320 is positioned on the surface of the inner insulation layer 310.

In summary, the integral post-installation method of assembling the assembled window unit 100, which is formed by assembling all the accessories such as the window frame, the window sash, the glass and the like, and the matched window subframe 200 which is pre-installed indoors plays a good role in protecting personal safety and field products, and greatly accelerates project construction progress because construction of other specialties is not affected. Compared with the traditional installation method, the method is more environment-friendly because a plurality of field construction links are reduced.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. 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

1. The assembled energy-saving aluminum outer frame for the window is characterized by comprising a window auxiliary frame and a wall connecting piece which are formed in a factory manner, wherein the side, close to a wall, of the window auxiliary frame is connected with the wall connecting piece, and the wall connecting piece is connected with a wall of a window hole in a field through a fastening piece or is poured with concrete of the wall in a factory manner; the side, close to the window auxiliary frame, of the window frame is installed in the side, close to the window frame, of the window auxiliary frame through a sealing rubber strip, and the side, close to the window frame, of the window auxiliary frame is opposite to the side, close to the wall, of the window auxiliary frame.

2. The fabricated energy-saving aluminum outer frame for windows as claimed in claim 1, wherein the window sub-frame comprises a left side pressing line, a right side pressing line, a window lower pressing line, a window upper pressing line, a left side outer window sub-frame, a right side outer window sub-frame, a window lower outer window sub-frame, a window upper outer window sub-frame; the wall connecting pieces comprise a left wall connecting piece, a right wall connecting piece, a lower window wall connecting piece and an upper window wall connecting piece; the left side pressing line and the left side outer window auxiliary frame are fixed on the left side wall connecting piece through fasteners; the right side pressing line and the right side outer window auxiliary frame are fixed on the right side wall connecting piece through fasteners; the lower window pressing line and the lower outer window auxiliary frame are fixed on the lower window wall body connecting piece by fasteners; the upper press line of the window and the auxiliary frame of the upper outer window of the window are fixed on the wall connecting piece on the window by fasteners.

3. The energy-saving aluminum outer frame for the assembled window as claimed in claim 1 or 2, wherein the side of the window subframe or/and the wall connecting member adjacent to the outdoor wall is sealed by an outer wall sealant.

4. The fabricated energy-saving aluminum sash according to claim 2, wherein a heat insulating strip is disposed between the left side pressing line and the left side outer window sub-frame, between the right side pressing line and the right side outer window sub-frame, between the window lower pressing line and the window lower outer window sub-frame, and between the window upper pressing line and the window upper outer window sub-frame.

5. The energy-saving aluminum outer frame for the assembled window as claimed in claim 1, wherein after the wall connecting piece is connected with the wall body of the window opening through a fastener on site, waterproof cement mortar is filled between the wall connecting piece and the wall body of the window opening.