CN112177484A - Connection technology of aluminum alloy door and window frame and wall - Google Patents

Abstract

The invention discloses a technology for connecting an aluminum alloy door and window frame with a wall body, which comprises the following steps: the method comprises the steps of measuring a datum line of an aluminum alloy door and window frame installation hole reserved in a wall body, measuring inlet and outlet vertical lines of aluminum alloy door and window frames on two sides of the aluminum alloy door and window frame installation hole, connecting two ends of a connecting piece with the wall body through expansion bolts, installing a sound insulation plate and a heat insulation plate between the connecting piece and the wall body, connecting and fixing the aluminum alloy door and window frame with the connecting piece fixed on the wall body through the connecting bolts, correcting a datum error exceeding a design requirement and filling a foaming agent; according to the invention, the special isosceles trapezoid-shaped connecting piece is designed, so that the connection stability between the aluminum alloy door and window frame and the wall body can be improved, the installation tightness between the aluminum alloy door and window frame and the wall body can be improved by measuring the datum line through the installation hole of the aluminum alloy door and window frame, the success rate of installation once is high, and the sealing property between the installed aluminum alloy door and window frame and the wall body is good.

Description

Connection technology of aluminum alloy door and window frame and wall

Technical Field

The invention relates to the technical field of aluminum alloy door and window installation, in particular to a technology for connecting an aluminum alloy door and window frame and a wall body.

Background

In recent years, in civil building construction engineering, aluminum alloy structures are more and more widely applied, particularly aluminum alloy doors and windows, at present, the connection between the aluminum alloy door and window frames and a concrete wall is mainly fixed by adopting a fixed steel sheet, gaps between the peripheral frames of the aluminum alloy doors and windows and the wall are plugged by adopting cement mortar, but the difference of deformation modulus between the peripheral frames of the aluminum alloy doors and windows and the wall is large, cracks are easy to appear, water leakage is caused, the aluminum alloy door and window frames are further corroded, meanwhile, the connection stability of the aluminum alloy doors and windows is influenced, the safety is low, the heat preservation and sound insulation effects of houses can be reduced, and adverse effects are brought to lives of people.

Disclosure of Invention

Aiming at the problems, the invention provides a technology for connecting an aluminum alloy door and window frame and a wall body, which can improve the connection stability between the aluminum alloy door and window frame and the wall body by designing a special isosceles trapezoid-shaped connecting piece, can improve the installation tightness between the aluminum alloy door and window frame and the wall body by carrying out datum line measurement through an installation hole of the aluminum alloy door and window frame, has high installation success rate at one time, and has good sealing property between the installed aluminum alloy door and window frame and the wall body.

The invention provides a technology for connecting an aluminum alloy door and window frame with a wall body, which comprises the following steps:

the method comprises the following steps: before connection, the size, the flatness and the verticality of a frame of the aluminum alloy door and window frame are checked, reference lines of an installation hole of the aluminum alloy door and window frame reserved on a wall body are measured, and the measured reference lines are marked one by one;

step two: measuring the vertical lines of the aluminum alloy door and window frames at two sides of the installation hole of the aluminum alloy door and window frames by using a steel tape and a hanging line drop according to the design requirements, and popping ink lines by using an ink line box as marking lines;

step three: designing a special connecting piece, wherein the connecting piece is in an isosceles trapezoid shape, and two ends of the connecting piece are connected with a wall body through expansion bolts;

step four: after the connecting piece is connected with the wall body, installing the sound insulation board and the heat insulation board between the connecting piece and the wall body reasonably according to the residual installation amount required by the design, and controlling the total installation thickness of the sound insulation board and the heat insulation board to be the same as the height of the middle point bulge part of the connecting piece;

step five: moving the aluminum alloy door and window frame into the mounting hole of the aluminum alloy door and window frame according to the datum line mark and the ink line mark, and connecting and fixing the aluminum alloy door and window frame and a midpoint bulge of a connecting piece fixed on the wall body by using a connecting bolt;

step six: after the aluminum alloy door and window frame is connected, measuring a horizontal reference and a vertical reference between the aluminum alloy door and window frame and a wall body, and correcting a reference error exceeding the specification of a design requirement;

step seven: and filling the connecting joint between the aluminum alloy door and window frame and the wall body with a foaming agent, and cleaning the overflowing foaming agent.

The further improvement lies in that: the datum line of the aluminum alloy door and window frame installation opening reserved in the wall body in the step one comprises: and measuring a horizontal datum line of the aluminum alloy door and window frame mounting hole, a horizontal center line of the aluminum alloy door and window frame mounting hole, and a vertical datum line and a vertical center line of the aluminum alloy door and window frame mounting hole on the wall body reserved with the aluminum alloy door and window frame mounting hole according to the wall body marking line.

The further improvement lies in that: and in the third step, a gap between the middle convex part of the connecting piece and the wall body is filled by the wood brick, and one end of the wood brick, which is connected with the wall body, needs to be embedded into the wall body by 2-3 cm.

The further improvement lies in that: the connecting piece in the third step is made of chrome-plated alloy steel, the length of the connecting piece is 10 mm, the height of the middle point convex part is 5-6 mm, and the thickness is 1.5-2.5 mm.

The further improvement lies in that: and in the third step, the connecting pieces are arranged at intervals of 40-50 cm in mounting density, and at least one connecting piece is arranged at the four-corner connecting points of the aluminum alloy door and window frame and the wall body.

The further improvement lies in that: when the sound insulation boards and the heat insulation boards are installed in the fourth step, the multilayer sound insulation boards and the heat insulation boards can be reasonably installed within a range according to the residual installation amount of the design requirement, the multilayer sound insulation boards and the heat insulation boards are installed in an alternative installation mode, the sound insulation boards and the heat insulation boards are adjacent to each other, the sound insulation boards and the heat insulation boards are fixed through adhesives and fixing screws, and the installation density of the fixing screws is 20-24/square meter.

The further improvement lies in that: and in the fifth step, when the aluminum alloy door and window frame is connected with the wall, the connecting bolt must penetrate through the lining rib or the double-layer aluminum alloy wall in the aluminum alloy door and window frame, and one end of the connecting bolt must be immersed into the wooden brick 2/3.

The further improvement lies in that: and seventhly, filling the foaming agent in a one-time uninterrupted mode, and ensuring that the foaming agent in the connecting joint between the aluminum alloy door and window frame and the wall is completely formed in one step.

The invention has the beneficial effects that: through designing a dedicated connecting piece that is isosceles trapezoid shape, can improve the stability of being connected between aluminum alloy door and window frame and the wall body, carry out the datum line survey through aluminum alloy door and window frame installation entrance to a cave and can improve the installation compactness between aluminum alloy door and window frame and the wall body, the disposable success rate of installation is high, and the leakproofness is good between aluminum alloy door and window frame and the wall body after the installation, through installing acoustic celotex board and heated board between connecting piece and wall body can improve the heat insulating ability and the syllable-dividing effect after aluminum alloy door and window frame installs, the space filling rate between aluminum alloy door and window frame and the wall body is inseparabler simultaneously, can further improve the installation stability of aluminum alloy door and window frame, can strengthen the life of aluminum alloy door and window frame.

Detailed Description

In order to enhance the understanding of the present invention, the present invention will be further described with reference to the following examples, which are only illustrative and not intended to limit the scope of the present invention.

A technology for connecting an aluminum alloy door and window frame with a wall body comprises the following steps:

the method comprises the following steps: the method comprises the steps of firstly checking the size, flatness and verticality of a frame of the aluminum alloy door and window frame before connection, measuring a datum line of a reserved aluminum alloy door and window frame mounting hole on a wall body, measuring a horizontal datum line of the reserved aluminum alloy door and window frame mounting hole, a horizontal central line of the aluminum alloy door and window frame mounting hole, a vertical datum line and a vertical central line of the aluminum alloy door and window frame mounting hole on the wall body reserved with the aluminum alloy door and window frame mounting hole according to a wall body height marking line, and marking the measured datum lines one by one;

step two: measuring the vertical lines of the aluminum alloy door and window frames at two sides of the installation hole of the aluminum alloy door and window frames by using a steel tape and a hanging line drop according to the design requirements, and popping ink lines by using an ink line box as marking lines;

step three: designing a special connecting piece, wherein the connecting piece is in an isosceles trapezoid shape, the connecting piece is made of chrome-plated alloy steel, the length of the connecting piece is 10 mm, the height of a middle-point bulge part is 5 mm, the thickness of the connecting piece is 2 mm, two ends of the connecting piece are connected with a wall body through expansion bolts, the mounting density of the connecting piece is mounted at intervals of 45 cm, at least one connecting piece is mounted at four corner connecting points of an aluminum alloy door and window frame and the wall body, a gap between a middle bulge part of the connecting piece and the wall body is filled with a wooden brick, and one end, connected with the wall body, of the wooden brick is required to;

step four: after the connecting piece is connected with the wall body, according to the residual installation amount required by design, installing the sound insulation board and the heat insulation board between the connecting piece and the wall body reasonably according to the range, when the sound insulation board and the heat insulation board are installed, installing the multilayer sound insulation board and the heat insulation board reasonably according to the residual installation amount required by design, adopting an alternate installation mode when the multilayer sound insulation board and the heat insulation board are installed, fixing the adjacent sound insulation board and the heat insulation board through an adhesive and fixing screws, wherein the installation density of the fixing screws is 22/square meter, and controlling the total installation thickness of the sound insulation board and the heat insulation board to be the same as the height of a middle point protruding part of the connecting piece;

step five: moving the aluminum alloy door and window frame into an aluminum alloy door and window frame mounting hole according to the datum line mark and the ink line mark, and connecting and fixing the aluminum alloy door and window frame and a midpoint bulge of a connecting piece fixed on a wall body by using a connecting bolt, wherein when the aluminum alloy door and window frame is connected with the wall body, the connecting bolt must penetrate through a double-layer aluminum alloy wall of the aluminum alloy door and window frame, and one end of the connecting bolt must be immersed into a wooden brick 2/3;

step six: after the aluminum alloy door and window frame is connected, measuring a horizontal reference and a vertical reference between the aluminum alloy door and window frame and a wall body, and correcting a reference error exceeding the specification of a design requirement;

step seven: the foaming agent is filled in the connecting joint between the aluminum alloy door and window frame and the wall body, and the foaming agent is filled in a one-time uninterrupted mode, so that the foaming agent in the connecting joint between the aluminum alloy door and window frame and the wall body is completely formed in one step, and the overflowing foaming agent is cleaned.

Through designing a dedicated connecting piece that is isosceles trapezoid shape, can improve the stability of being connected between aluminum alloy door and window frame and the wall body, carry out the benchmark line survey through aluminum alloy door and window frame installation entrance to a cave and can improve the installation compactness between aluminum alloy door and window frame and the wall body, the disposable success rate of installation is high, and the leakproofness is good between aluminum alloy door and window frame after the installation and the wall body, through installing acoustic celotex board and heated board between connecting piece and wall body can improve the heat insulating ability and the syllable-dividing effect after aluminum alloy door and window frame installs, the space filling rate between aluminum alloy door and window frame and the wall body is inseparabler simultaneously, can further improve the installation stability of aluminum alloy door and window frame, can strengthen the life of aluminum alloy door and window frame.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. 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 as defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The connection technology of the aluminum alloy door and window frame and the wall body is characterized by comprising the following steps:

the method comprises the following steps: before connection, the size, the flatness and the verticality of a frame of the aluminum alloy door and window frame are checked, reference lines of an installation hole of the aluminum alloy door and window frame reserved on a wall body are measured, and the measured reference lines are marked one by one;

step two: measuring the in-out vertical lines of the aluminum alloy door and window frames on two sides of the installation hole of the aluminum alloy door and window frames by using a steel tape and a hanging line drop according to design requirements, and popping up ink lines as marking lines by using an ink line box;

step three: designing a special connecting piece, wherein the connecting piece is in an isosceles trapezoid shape, and two ends of the connecting piece are connected with a wall body through expansion bolts;

step four: after the connecting piece is connected with the wall body, installing the sound insulation board and the heat insulation board between the connecting piece and the wall body reasonably according to the residual installation amount required by the design, and controlling the total installation thickness of the sound insulation board and the heat insulation board to be the same as the height of the middle point bulge part of the connecting piece;

step five: moving the aluminum alloy door and window frame into the aluminum alloy door and window frame mounting hole according to the datum line mark and the ink line mark, and connecting and fixing the aluminum alloy door and window frame and a midpoint bulge of a connecting piece fixed on the wall body by using a connecting bolt;

step six: after the aluminum alloy door and window frame is connected, measuring a horizontal reference and a vertical reference between the aluminum alloy door and window frame and a wall body, and correcting a reference error exceeding the design requirement;

step seven: and filling the connecting joint between the aluminum alloy door and window frame and the wall body with a foaming agent, and cleaning the overflowing foaming agent.

2. The aluminum alloy door and window frame and wall connection technology as claimed in claim 1, wherein: the datum line of the aluminum alloy door and window frame installation opening reserved in the wall body in the step one comprises: and measuring a horizontal datum line of the aluminum alloy door and window frame mounting hole, a horizontal center line of the aluminum alloy door and window frame mounting hole, and a vertical datum line and a vertical center line of the aluminum alloy door and window frame mounting hole on the wall body reserved with the aluminum alloy door and window frame mounting hole according to the wall body marking line.

3. The aluminum alloy door and window frame and wall connection technology as claimed in claim 1, wherein: and in the third step, a gap between the middle convex part of the connecting piece and the wall body is filled by the wood brick, and one end of the wood brick, which is connected with the wall body, needs to be embedded into the wall body by 2-3 cm.

4. The aluminum alloy door and window frame and wall connection technology as claimed in claim 1, wherein: the connecting piece in the third step is made of chrome-plated alloy steel, the length of the connecting piece is 10 mm, the height of the middle point convex part is 5-6 mm, and the thickness is 1.5-2.5 mm.

5. The aluminum alloy door and window frame and wall connection technology as claimed in claim 1, wherein: the installation density of the connecting pieces in the third step is one every 40-50 cm, and at least one connecting piece is installed at the four-corner connecting points of the aluminum alloy door and window frame and the wall body.

6. The aluminum alloy door and window frame and wall connection technology as claimed in claim 1, wherein: when the sound insulation boards and the heat insulation boards are installed in the fourth step, the multilayer sound insulation boards and the heat insulation boards can be reasonably installed within a range according to the residual installation amount of the design requirement, the multilayer sound insulation boards and the heat insulation boards are installed in an alternate installation mode, the sound insulation boards and the heat insulation boards are adjacent to each other and are fixed through the adhesive and the fixing screws, and the installation density of the fixing screws is 20-24 per square meter.

7. The aluminum alloy door and window frame and wall connection technology as claimed in claim 3, wherein: in the fifth step, when the aluminum alloy door and window frame is connected with the wall, the connecting bolt must penetrate through the lining rib or the double-layer aluminum alloy wall in the aluminum alloy door and window frame, and one end of the connecting bolt must be immersed in the wood brick 2/3.

8. The aluminum alloy door and window frame and wall connection technology as claimed in claim 1, wherein: and seventhly, filling the foaming agent in a one-time uninterrupted mode, and ensuring that the foaming agent in the connecting joint between the aluminum alloy door and window frame and the wall is completely formed in one step.