CN114352034B

CN114352034B - Unit glass curtain wall system installation method capable of being installed indoors

Info

Publication number: CN114352034B
Application number: CN202210134643.XA
Authority: CN
Inventors: 洪盛桥; 国宏雪; 李玮; 金凌; 祝庆文
Original assignee: Third Construction Co Ltd of China Construction Eighth Engineering Divison Co Ltd
Current assignee: Third Construction Co Ltd of China Construction Eighth Engineering Divison Co Ltd
Priority date: 2022-02-14
Filing date: 2022-02-14
Publication date: 2023-05-16
Anticipated expiration: 2042-02-14
Also published as: CN114352034A

Abstract

The invention provides a method for installing a unit glass curtain wall system capable of being installed indoors, which is characterized in that each unit body plate to be installed is prefabricated in a factory, installation structures matched with the unit body plate are preset at the top and the bottom of a building hole, and the unit body plate can be directly installed indoors after being integrally transported to the site. Compared with the traditional frame curtain wall system, the installation method provided by the invention has the advantages that the construction difficulty is effectively reduced, the construction speed is higher, the construction progress is improved, the installation quality of the curtain wall can be ensured, and the appearance effect of the building is ensured.

Description

Unit glass curtain wall system installation method capable of being installed indoors

Technical Field

The invention belongs to the technical field of curtain wall installation, and particularly relates to an indoor-installation unit glass curtain wall system installation method.

Background

In modern buildings, curtain walls are adopted in building holes as outer facade expression forms, most of existing building constructions adopt frame curtain wall systems, upright posts are required to be installed firstly, then cross beams are required to be installed, and finally panels are installed, so that the workload of site construction is large, the installation progress of site construction is slower, the construction efficiency is low, and large-area rapid construction is not facilitated particularly when the construction period is short.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides the installation method of the indoor-installable unit glass curtain wall system, which can be directly installed indoors, effectively reduces the construction difficulty, improves the construction speed and effectively ensures the installation quality of the curtain wall.

The present invention achieves the above technical object by the following means.

An indoor installable unit glass curtain wall system installation method comprises the following steps:

step 1: galvanized embedded parts are arranged at the top and the bottom of the building hole in advance, and splicing supporting units are fixedly arranged on the galvanized embedded parts;

step 2: the lower surface of an inserting supporting unit at the top of a building hole is clamped with an aluminum alloy top guard edge, an aluminum alloy guard edge heat-insulating section A is arranged on the outdoor side of the aluminum alloy top guard edge through a screw, and the lower end of the aluminum alloy guard edge heat-insulating section A is clamped with a water retaining adhesive tape and an EPDM adhesive tape A which are both used for being lapped with a top cross beam of a unit body plate;

step 3: the upper surface of a plugging support unit at the bottom of a building hole is clamped with an aluminum alloy lifting material, an aluminum alloy inserting core is clamped in a groove on the upper surface of the right end of the aluminum alloy lifting material, EPDM rubber strips B are clamped in grooves on two side walls of the aluminum alloy lifting material above the aluminum alloy inserting core, a water-coated aluminum plate is clamped on the upper surface of the left end of the aluminum alloy lifting material, and a water-retaining rubber strip is clamped on the upper surface of the upper end, close to the outside, of the aluminum alloy lifting material and used for being lapped with a bottom cross beam of a unit body plate;

step 4: prefabricating and assembling the male and female uprights, the top cross beam, the bottom cross beam and the glass panel of the unit body forming the unit body plate in a factory;

step 5: lifting the whole unit body plate by using a crane, tilting the whole unit body plate to the indoor direction, and then respectively splicing and installing a bottom beam and a top beam; the lower surface of the bottom beam is close to the indoor end and is clamped with the aluminum alloy priming material, the lower surface of the bottom beam is close to the outdoor end and is overlapped with the aluminum alloy priming material through a water retaining adhesive tape, the side edge of the middle part of the top beam is tightly compacted with an EPDM adhesive tape A (14) at the lower end of an aluminum alloy protection edge heat-insulating section A, and the upper surface of the top beam is close to the outdoor end and is overlapped with the aluminum alloy protection edge heat-insulating section A through the water retaining adhesive tape;

step 6: and (3) integrally and horizontally moving each unit body plate, completing the plug-in installation of the male and female unit body stand columns between the unit body plates, and then installing an aluminum alloy pressing plate profile on the indoor side for limiting the movement of the unit body plates along the indoor and outdoor directions.

Further, the plug-in support unit comprises a galvanized channel steel adaptor welded and fixed on the galvanized embedded part, and the groove part of the galvanized channel steel adaptor is aligned with the galvanized embedded part; the surface of the galvanized channel steel adaptor is fixedly provided with an aluminum alloy L-shaped connecting piece through a stainless steel bolt, and the other end surface of the L-shaped connecting piece is fixedly provided with an aluminum alloy T-shaped connecting piece through a stainless steel bolt; the lower surface of the T-shaped connecting piece positioned at the top of the building hole is clamped with the aluminum alloy top protection edge, and the upper surface of the T-shaped connecting piece positioned at the bottom of the building hole is clamped with the aluminum alloy priming material.

In step 4, during prefabrication and assembly, firstly prefabricating and assembling the male and female upright posts, the top beam and the bottom beam of the unit body in a factory through stainless steel screws, then installing a glass auxiliary frame and two aluminum alloy supporting plates on one side, close to the outside, of the bottom beam, placing a rubber cushion block on the aluminum alloy supporting plates, continuously installing the glass auxiliary frame on one side, close to the outside, of the top beam, and then installing a glass panel between the top beam and the bottom beam.

Further, after the glass panel is installed, EPDM rubber strips C are installed between the glass panel and the bottom cross beam and between the glass panel and the top cross beam, and silicone sealant is filled; after the sealant is filled, mounting foam bars and silicone weather-resistant sealant on the top edge and the bottom edge of the glass panel; then, an aluminum alloy protection edge heat-insulating section bar B is arranged on one side, close to the outdoor, of the bottom beam and the top beam through screws, and the other end of the aluminum alloy protection edge heat-insulating section bar B is connected with an aluminum alloy decorative buckle cover; finally, an EPDM adhesive tape D is arranged between the aluminum alloy decorative buckle cover and the glass panel; then, the lower end of the aluminum alloy decorative buckle cover positioned on the bottom beam and the upper end of the aluminum alloy decorative buckle cover positioned on the top beam are respectively clamped with water retaining rubber strips which are respectively used for being lapped with the bottom and the top of the building hole.

Further, when the bottom cross beam is installed in a plugging manner, firstly, a closed sponge is installed at the position of a plugging groove at the bottom of the bottom cross beam, then the bottom cross beam is correspondingly plugged with a building hole bottom structure, after the plugging groove of the bottom cross beam is aligned with a plugging thorn of an aluminum alloy priming material, the closed sponge is installed between the end part of the bottom cross beam and an aluminum alloy inserting core, then the bottom cross beam falls onto the aluminum alloy priming material, the EPDM adhesive tape B clamped on two side walls of a groove of the aluminum alloy priming material is guaranteed to be tightly adhered to the bottom cross beam, and then a water retaining adhesive tape is plugged between the bottom cross beam and the aluminum alloy priming material.

Further, after the bottom cross beam is installed, silicone weather-proof sealant is applied to the crisscross positions of the unit body plates.

Further, one end of the aluminum alloy pressing plate profile is inserted into a groove of the aluminum alloy top protection edge and is fixed through nailing, and an EPDM rubber strip E is inserted between the other end and the top cross beam.

The invention has the following beneficial effects:

according to the method for installing the unit glass curtain wall system, the unit body plates are prefabricated in a factory in a unit body mode and are transported to a construction site for installation and use, and the unit glass curtain wall system can be installed indoors directly, so that construction difficulty is effectively reduced. Compared with the traditional frame curtain wall system, the unit glass curtain wall system capable of being installed indoors can effectively improve construction speed and curtain wall installation quality, save a large amount of on-site operation time and effectively improve construction progress. In addition, the machining precision of the unit body plate is high in a factory, so that the machining quality of the curtain wall plate can be greatly improved, and the building appearance effect is ensured.

Drawings

FIG. 1 is a cross-sectional view of a construction tunnel portal bottom structure in accordance with the present invention;

FIG. 2 is a cross-sectional view of the structural arrangement of the top of the building tunnel portal of the present invention;

FIG. 3 is a cross-sectional view showing the bottom structure of the unit block according to the present invention;

FIG. 4 is a cross-sectional view showing the top structure of the unit block according to the present invention;

FIG. 5 is a schematic view of the installation of the bottom of the unit block and the bottom of the building hole according to the invention;

FIG. 6 is a schematic view of the top of the unit block and the top of the building hole according to the present invention;

FIG. 7 is a schematic view showing the whole unit body plate tilting to the indoor direction;

FIG. 8 is a schematic view of the plugging installation of the unit body plate according to the present invention;

fig. 9 is a schematic installation view of an aluminum alloy pressing plate profile according to the invention.

1-a glass panel; 2-a male and female upright post of the unit body; 3-a bottom cross beam; 4-top beam; a 5-aluminum alloy L-shaped connector; a 6-aluminum alloy T-shaped connector; 7-aluminum alloy top guard edges; 8-galvanization embedded parts; 9-galvanized channel steel adaptor; 10-aluminum alloy priming material; 11-an aluminum alloy ferrule; 12-aluminum alloy guard edge heat-insulating section bar A; 13-a water retaining adhesive tape; 14-EPDM rubber strip A; 15-coating a water aluminum plate; 16-foam stick; 17-EPDM strip B;18-EPDM strip C; 19-aluminum alloy decorative buckle cover; 20-aluminum alloy supporting plates; 21-EPDM strip D; 22-aluminum alloy guard edge heat-insulating section bar B; 23-glass subframe; 24-silicone sealant; 25-closing the sponge; 26-stainless steel screw.

Detailed Description

The invention will be further described with reference to the drawings and the specific embodiments, but the scope of the invention is not limited thereto.

The invention relates to an indoor installable unit glass curtain wall system installation method, which comprises the following steps:

step 1: as shown in fig. 1, 2, 7, 8 and 9, pre-burying galvanized embedded parts 8 at the top and the bottom of a building hole of a unit body plate to be installed in advance, welding and fixing a 10# galvanized channel steel adapter 9 on the galvanized embedded parts 8, and ensuring that the groove parts of the galvanized channel steel adapter 9 are aligned with the galvanized embedded parts 8; then, the aluminum alloy L-shaped connecting piece 5 is fixedly installed on the surface of the galvanized channel steel adaptor 9 through an M12 stainless steel bolt, and the aluminum alloy T-shaped connecting piece 6 is fixedly installed on the other end face of the L-shaped connecting piece 5 through an M12 stainless steel bolt.

Step 2: for the top of the building hole, as shown in fig. 6, the lower surface of the T-shaped connecting piece 6 is clamped with the aluminum alloy top guard edge 7, the aluminum alloy guard edge heat-insulating section A12 is installed on the outdoor side of the aluminum alloy top guard edge 7 through screws, and the lower end of the aluminum alloy guard edge heat-insulating section A12 is clamped with the water retaining adhesive tape 13 and the EPDM adhesive tape A14 for being lapped with the top cross beam 4 of the unit body plate.

Step 3: for the bottom of a building hole, as shown in fig. 5, the upper surface of a T-shaped connecting piece 6 is clamped with an aluminum alloy lifting material 10, an aluminum alloy insert core 11 is clamped in a groove on the right side of the upper surface of the aluminum alloy lifting material 10, and two side walls of the groove of the aluminum alloy lifting material 10 above the aluminum alloy insert core 11 are clamped with EPDM rubber strips B17;

then, a water-coated aluminum plate 15 is clamped on the left side of the upper surface of the aluminum alloy priming material 10, and a water-retaining adhesive tape 13 is clamped on one end of the aluminum alloy priming material 10, which is close to the outside, for being lapped with the bottom cross beam 3 of the unit body plate.

Step 4: the unit body plates are assembled and manufactured, in the embodiment, the unit body plates installed at the building hole are prefabricated in a factory, and are transported to a room of a construction site for block-by-block installation after the prefabrication is completed.

The unit body plate comprises a glass panel 1, a unit body male and female upright post 2, a bottom cross beam 3, a top cross beam 4, an EPDM adhesive tape C18, an EPDM adhesive tape D21, silicone weather-proof sealant, an aluminum alloy supporting plate 20, silicone sealant 24, an aluminum alloy protection edge heat-insulating section B22 and an aluminum alloy decorative buckle cover 19;

as shown in fig. 3 and 4, the unit body male and female upright posts 2, the top beam 4 and the bottom beam 3 are prefabricated and assembled in a factory through stainless steel screws 26, then a glass auxiliary frame 23 and two aluminum alloy supporting plates 20 are installed on one side, close to the outside, of the bottom beam 3, rubber cushion blocks are placed on the aluminum alloy supporting plates 20, the glass auxiliary frame 23 is continuously installed on one side, close to the outside, of the top beam 4, of the bottom beam 3, and then the glass panel 1 is installed between the top beam 4 and the bottom beam 3;

as shown in fig. 3 and 4, after the glass panel 1 is mounted, EPDM rubber strips C18 are mounted between the glass panel 1 and the bottom cross member 3 and between the glass panel 1 and the top cross member 4, and silicone sealant 24 is filled; after the sealant is filled, the foam rod 16 and the silicone weather-resistant sealant are arranged on the top edge and the bottom edge of the glass panel 1; then, an aluminum alloy protection edge heat-insulating section bar B22 is arranged on one side, close to the outdoor, of the bottom cross beam 3 and the top cross beam 4 through screws, the other end of the aluminum alloy protection edge heat-insulating section bar B22 is connected with an aluminum alloy decorative buckle cover 19, and finally an EPDM adhesive tape D21 is arranged between the aluminum alloy decorative buckle cover 19 and the glass panel 1; the lower end of the aluminum alloy decorative buckle cover 19 positioned on the bottom cross beam 3 and the upper end of the aluminum alloy decorative buckle cover 19 positioned on the top cross beam 4 are respectively clamped with a water retaining adhesive tape 13 which is respectively used for being lapped with the bottom and the top of a building hole.

Step 5: installing a unit body plate at a building hole; as shown in fig. 7, firstly, lifting the whole unit body plate to a certain height by using a crane, then tilting the whole unit body plate to the indoor direction, and then plugging and installing the bottom beam 3 and the top beam 4 as shown in fig. 5, 6 and 8 respectively;

when the bottom cross beam 3 is installed in a plugging manner, firstly, a closed sponge 25 is installed at the position of a plugging groove at the bottom of the bottom cross beam 3, then the bottom cross beam 3 is correspondingly plugged with the bottom structure of a building hole, after the plugging groove of the bottom cross beam 3 is aligned with a plugging thorn of the aluminum alloy priming material 10, the closed sponge 25 is installed between the end part of the bottom cross beam 3 and the aluminum alloy inserting core 11, then the bottom cross beam 3 falls onto the aluminum alloy priming material 10, the EPDM rubber strips B17 which are clamped at the two side walls of a groove of the aluminum alloy priming material 10 are ensured to be tightly adhered to the bottom cross beam 3, and then a water retaining rubber strip 13 is plugged between the bottom cross beam 3 and the aluminum alloy priming material 10; after the bottom cross beam 3 is installed, silicone weather-proof sealant is applied to the crisscross positions of the unit body plates;

after the bottom cross beam 3 and the aluminum alloy priming material 10 are installed, the side edge of the top cross beam 4 and an EPDM adhesive tape A14 clamped at the lower end of the aluminum alloy section bar 12 are close to and compacted.

Step 6: after the bottom cross beam 3 and the top cross beam 4 are inserted and installed, moving each unit body plate horizontally integrally, and completing the insertion and installation of the unit body male and female upright posts 2 between two adjacent unit body plates; then installing an aluminum alloy pressing plate profile on the indoor side, inserting the aluminum alloy pressing plate profile into a groove of an aluminum alloy top guard edge 7, nailing and fixing the aluminum alloy pressing plate profile on the indoor side, preventing the aluminum alloy pressing plate profile from sliding left and right or falling off, limiting the movement of the unit body plate along the indoor and outdoor directions, and ensuring the whole stability and firmness of the unit body plate; and then an EPDM rubber strip E is plugged between the aluminum alloy pressing plate section bar and the top cross beam 4, and the whole installation work is completed.

The examples are preferred embodiments of the present invention, but the present invention is not limited to the above-described embodiments, and any obvious modifications, substitutions or variations that can be made by one skilled in the art without departing from the spirit of the present invention are within the scope of the present invention.

Claims

1. The method for installing the indoor-installable unit glass curtain wall system is characterized by comprising the following steps of:

step 1: galvanized embedded parts (8) are arranged at the top and the bottom of the building hole in advance, and splicing supporting units are fixedly arranged on the galvanized embedded parts (8);

step 2: the lower surface of an inserting supporting unit at the top of a building hole is clamped with an aluminum alloy top guard edge (7), an aluminum alloy guard edge heat-insulating section A (12) is arranged on the outdoor side of the aluminum alloy top guard edge (7) through a screw, and the lower end of the aluminum alloy guard edge heat-insulating section A (12) is clamped with a water retaining adhesive tape (13) and an EPDM adhesive tape A (14) which are both used for being lapped with a top beam (4) of a unit body plate;

step 3: the upper surface of a plugging support unit at the bottom of a building hole is clamped with an aluminum alloy lifting material (10), an aluminum alloy inserting core (11) is clamped in a groove on the upper surface of the right end of the aluminum alloy lifting material (10), EPDM rubber strips B (17) are clamped in grooves on two side walls of the aluminum alloy lifting material (10) above the aluminum alloy inserting core (11), a water-coated aluminum plate (15) is clamped on the upper surface of the left end of the aluminum alloy lifting material (10), and a water-retaining rubber strip (13) is clamped on the upper surface of the aluminum alloy lifting material (10) close to one outdoor end and used for being lapped with a bottom cross beam (3) of a unit body plate;

step 4: prefabricating and assembling a unit body male and female upright post (2), a top beam (4), a bottom beam (3) and a glass panel (1) which form a unit body plate in a factory;

step 5: lifting the whole unit body plate by using a crane, tilting the whole unit body plate to the indoor direction, and then plugging and installing the bottom cross beam (3) and the top cross beam (4) respectively; the lower surface of the bottom cross beam (3) is close to one end in a room and is clamped with an aluminum alloy lifting material (10), the lower surface of the bottom cross beam (3) is close to one end outside the room and is overlapped with the aluminum alloy lifting material (10) through a water retaining adhesive tape (13), the side edge of the middle part of the top cross beam (4) is tightly pressed against an EPDM adhesive tape A (14) at the lower end of an aluminum alloy protection edge heat insulation section A (12), and the upper surface of the top cross beam (4) is close to one end outside the room and is overlapped with the aluminum alloy protection edge heat insulation section A (12) through the water retaining adhesive tape (13);

step 6: and (3) integrally and horizontally moving each unit body plate, completing the plug-in installation of the male and female unit body stand columns (2) between the unit body plates, and then installing an aluminum alloy pressing plate profile on the indoor side for limiting the movement of the unit body plates along the indoor and outdoor directions.

2. The method for installing the indoor installable unit glass curtain wall system according to claim 1, wherein the plug-in supporting unit comprises a galvanized channel steel adaptor (9) welded and fixed on the galvanized embedded part (8), and a groove part of the galvanized channel steel adaptor (9) is aligned with the galvanized embedded part (8); the surface of the galvanized channel steel adaptor (9) is fixedly provided with an aluminum alloy L-shaped connecting piece (5) through a stainless steel bolt, and the other end surface of the L-shaped connecting piece (5) is fixedly provided with an aluminum alloy T-shaped connecting piece (6) through a stainless steel bolt; the lower surface of the T-shaped connecting piece (6) positioned at the top of the building hole is clamped with an aluminum alloy top protection edge (7), and the upper surface of the T-shaped connecting piece (6) positioned at the bottom of the building hole is clamped with an aluminum alloy lifting material (10).

3. The method for installing the indoor-installable unit glass curtain wall system according to claim 2, wherein in the step 4, when the prefabricated assembly is performed, firstly, the unit body male-female upright (2), the top beam (4) and the bottom beam (3) are prefabricated and assembled in a factory through stainless steel screws (26), then, a glass subframe (23) and two aluminum alloy supporting plates (20) are installed on one side, close to the outside, of the bottom beam (3), a rubber cushion block is placed on the aluminum alloy supporting plates (20), the glass subframe (23) is continuously installed on one side, close to the outside, of the top beam (4), and then, the glass panel (1) is installed between the top beam (4) and the bottom beam (3).

4. A method of installing an indoor mountable unit glass curtain wall system according to claim 3, characterized in that after the glass panel (1) is installed, EPDM strips C (18) are installed between the glass panel (1) and the bottom cross member (3), between the glass panel (1) and the top cross member (4), and silicone sealant (24) is filled; after the sealant is filled, foam rods (16) and silicone weather-resistant sealant are arranged on the top edge and the bottom edge of the glass panel (1); then, an aluminum alloy protection edge heat-insulating section B (22) is arranged on one side, close to the outside, of the bottom cross beam (3) and the top cross beam (4), and the other end of the aluminum alloy protection edge heat-insulating section B (22) is connected with an aluminum alloy decorative buckle cover (19); finally, an EPDM rubber strip D (21) is arranged between the aluminum alloy decorative buckle cover (19) and the glass panel (1); then, the lower end of the aluminum alloy decorative buckle cover (19) positioned on the bottom cross beam (3) and the upper end of the aluminum alloy decorative buckle cover (19) positioned on the top cross beam (4) are respectively clamped with the water retaining adhesive tape (13) which are respectively used for being overlapped with the bottom and the top of the building hole.

5. The method for installing the indoor-installable unit glass curtain wall system according to claim 4, wherein when the bottom cross beam (3) is installed in a plugging manner, firstly, a closed sponge (25) is installed at the position of a plugging slot at the bottom of the bottom cross beam (3), then the bottom cross beam (3) is correspondingly plugged with the bottom structure of a building hole, after the plugging slot of the bottom cross beam (3) is aligned with the plugging thorn of the aluminum alloy bottom material (10), the closed sponge (25) is installed between the end part of the bottom cross beam (3) and the aluminum alloy core insert (11), then the bottom cross beam (3) is fallen onto the aluminum alloy bottom material (10), the EPDM rubber strips B (17) which ensure the clamping connection of two side walls of the groove of the aluminum alloy bottom material (10) are tightly attached to the bottom cross beam (3), and then water blocking rubber strips (13) are plugged between the bottom cross beam (3) and the aluminum alloy bottom material (10).

6. The method for installing the indoor-installable unit glass curtain wall system according to claim 5, wherein after the installation of the bottom cross beam (3) is completed, silicone weather-resistant sealant is applied to the crisscross positions of the unit body panels.

7. The method for installing the indoor-installable unit glass curtain wall system according to claim 1, wherein one end of the aluminum alloy pressing plate profile is inserted into a groove of an aluminum alloy top protection edge (7) and fixed by nailing, and an EPDM rubber strip E is inserted between the other end and the top beam (4).