CN217420160U - Steel constructs and pierces through glass unitized curtain wall system - Google Patents

Abstract

The utility model provides a steel constructs pierces through glass unitized curtain wall system, cavity doubling glass structure, galvanized steel sheet, galvanized angle steel, galvanized channel-section steel and galvanized steel sheet

A stainless steel pipe is arranged on the bottom of the container,

one side of the stainless steel pipe is inserted with

A stainless steel pipe is arranged on the bottom of the container,

the other side of the stainless steel pipe is sleeved with

The stainless steel take-up lever is provided with a lifting rod,

the outer side of the stainless steel ram is sleeved with a 3mm stainless steel decorative disc, and the outer side of the 3mm stainless steel decorative disc is sleeved with a

A stainless steel cylinder, wherein the stainless steel cylinder is provided with a plurality of holes,

the stainless steel cylinder is connected with the hollow laminated glass structure. The system adopts a unit modularized installation mode, and compared with a frame curtain wall, the installation period is greatly shortened, the installation is relatively convenient, the on-site manpower requirement is reduced, the manpower cost can be saved, the corresponding management cost is reduced, and the system has remarkable economic characteristics.

Description

Steel constructs and pierces through glass unitized curtain wall system

Technical Field

The utility model belongs to the technical field of the unitized curtain wall, more specifically say, in particular to steel constructs and pierces through glass unitized curtain wall system.

Background

The building engineering gradually develops towards diversification, practicability and beautification, more new materials, new technologies and new methods also appear in the design of the building curtain wall, and the unit type curtain wall is more widely applied due to the good drainage system and sound insulation effect.

Based on the above, the present inventors found that the following problems exist: the existing unit curtain wall can cause the problem of inconsistent deformation among different materials if an interlayer structure under the condition of special modeling is used, so that a unit curtain wall system with steel structure penetrating through glass needs to be provided, and the problem of coordinated deformation is ensured under the condition of ensuring the construction quality.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and a steel structure penetrating glass unit type curtain wall system is provided, so as to achieve the purpose of higher practical value.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a steel constructs and pierces through glass unitized curtain wall system to solve present unitized curtain wall and use the inconsistent problem of deformation can appear in the interlaminar structure under the special molding condition.

The utility model discloses the steel constructs purpose and the efficiency that pierces through glass unit formula curtain system, is reached by following specific technological means:

a steel-structure glass-penetrating unitized curtain wall system comprises a hollow laminated glass structure, galvanized steel plates, galvanized angle steel, galvanized channel steel and a steel-structure glass-penetrating unitized curtain wall

Stainless steel tube, said

One side of the stainless steel pipe is inserted with

Stainless steel tube, said

The other side of the stainless steel pipe is sleeved with

Stainless steelA ram, the

The outer side of the stainless steel ram is sleeved with a 3mm stainless steel decorative disc, and the outer side of the 3mm stainless steel decorative disc is sleeved with a

A stainless steel cylinder, said

The stainless steel cylinder is connected with the hollow laminated glass structure, one side of the 3mm stainless steel decorative disc is sequentially connected with a 1.5mm silicon rubber strip and an aluminum profile buckle through bolts, and the aluminum profile buckle is respectively connected with the hollow laminated glass structure through bolts

The stainless steel ram is connected with the hollow laminated glass structure.

Furthermore, one side of the hollow laminated glass structure is connected with a 2mm aluminum veneer through a bolt, the hollow laminated glass structure is connected with a galvanized steel plate at a position far away from the 2mm aluminum veneer through a bolt, the galvanized steel plate and the 2mm aluminum veneer are positioned on the same horizontal plane, and heat preservation rock wool is filled between the galvanized steel plate and the 2mm aluminum veneer.

Further, the bottom of the 2mm aluminum veneer and the bottom of the galvanized steel plate are connected with an aluminum alloy middle cross beam through bolts, the top of the 2mm aluminum veneer and the top of the galvanized steel plate are connected with an aluminum alloy upper cross beam through bolts, the top of the aluminum alloy upper cross beam is connected with an aluminum alloy lower cross beam, one side of the aluminum alloy lower cross beam is connected with an aluminum alloy decorative buckle cover, the other side of the aluminum alloy decorative buckle cover is connected with an aluminum alloy window board, an aluminum alloy window board inserting core is arranged in the aluminum alloy window board, the bottom of the aluminum alloy upper cross beam is connected with an aluminum alloy cushion block, and a drain hole is formed in the aluminum alloy upper cross beam.

Furthermore, one side of the aluminum alloy cushion block is provided with a plurality of threaded holes, and M16 multiplied by 20 stainless steel inner hexagon flat end set screws and M12 multiplied by 40 stainless steel bolt groups are respectively connected in the threaded holes, the M16X 20 stainless steel inner hexagonal flat end set screw and the M12X 40 stainless steel bolt group penetrate through the aluminum alloy cushion block to be connected with an aluminum alloy lug, one side of the aluminum alloy lug is provided with a threaded hole, and the threaded hole is internally connected with an ST 6.3X 22 cross-shaped pan head self-drilling self-tapping screw, the threaded hole is internally connected with an ST 6.3X 22 cross-shaped pan head self-drilling self-tapping screw which penetrates through the aluminum alloy lugs to be connected with an aluminum alloy ground stop, the aluminum alloy floor platform is characterized in that an aluminum alloy cushion block is installed at the top of the aluminum alloy floor platform, an M16X 60 stainless steel T-shaped bolt is connected inside the aluminum alloy floor platform and the aluminum alloy cushion block, and a galvanized groove type embedded part is connected with the M16X 60 stainless steel T-shaped bolt.

Furthermore, fixing holes are formed in the aluminum alloy cushion blocks, and M6X 60 galvanized expansion bolts are connected in the fixing holes.

Furthermore, galvanized angle steel is installed at the top of galvanized steel sheet, the galvanized angle steel passes through bolted connection with the galvanized channel-section steel, the fluting has been seted up to one side of galvanized steel sheet, and the fluting in-connection has steel rock wool nail, it has the fire prevention rock wool to fill between galvanized steel sheet and the galvanized channel-section steel.

Furthermore, fireproof rock wool is filled between the galvanized groove type embedded part and the galvanized steel plate.

Compared with the prior art, the utility model discloses following beneficial effect has:

in the utility model

A stainless steel ram,

Stainless steel pipe and

the stainless steel tube constitutes a support structure, and the support structure andthe hollow laminated glass structure is decorated by a 3mm stainless steel disc and

the stainless steel cylinder is connected, 1.5mm silicon rubber strips are added in the middle of the stainless steel cylinder and connected with the supporting structure through aluminum profile buckles, and meanwhile, the stainless steel cylinder is connected with the supporting structure through aluminum profile buckles

The stainless steel cylinder is a circular tube with controllable deformation, which not only ensures the deformation allowance but also ensures the deformation coordination problem among different materials, and ensures the reliability of the structure and the design intention of architects as the supporting structure is cantilevered on the main structure, and ensures the exterior decoration effect, in addition, the heat-insulating rock wool is added between the galvanized steel plate and the 2mm aluminum veneer, thus improving the heat-insulating performance of the curtain wall system, and the drain hole in the aluminum alloy upper beam enables rainwater to quickly drain after penetrating into the gap of the hollow laminated glass structure, thereby reducing the probability of water seepage of the curtain wall and ensuring the waterproof performance of the curtain wall, because the curtain wall system adopts a unit modularized installation mode, compared with a frame curtain wall, the installation period is greatly shortened, because the installation is relatively convenient, the field manpower requirement is also reduced, the manpower cost can be saved and the corresponding management cost can be reduced, has remarkable economic characteristics.

Drawings

FIG. 1 is a schematic view of the vertical split joint between the layers of the steel structure penetrating through the glass unit type curtain wall system.

Fig. 2 is the utility model discloses the steel constructs and pierces through vertical section detail sketch map between glass unitized curtain wall system layer.

Fig. 3 is the utility model discloses the steel constructs and pierces through glass unit formula curtain wall system section node schematic diagram.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

101. a hollow laminated glass structure; 201. an aluminum alloy upper beam; 202. an aluminum alloy lower beam; 203. an aluminum alloy middle cross beam; 204. an aluminum alloy decorative buckle cover; 205. aluminum profile buckles; 206. aluminum alloy padA block; 207. aluminum alloy ground platform codes; 208. an aluminum alloy suspension loop; 209. an aluminum alloy window board; 210. inserting an aluminum alloy window board core; 301. 1.5mm silicone rubber strip; 401. ST 6.3X 22 cross-shaped groove pan head self-drilling self-tapping screw; 402. m16 x 20 stainless steel inner hexagonal flat end set screw; 403. m12 × 40 stainless steel bolt group; 404. steel rock wool nails; 405. M16X 60 stainless steel T-bolt; 406. m6 × 60 galvanized expansion bolts; 501. a galvanized steel sheet; 502. galvanizing a groove type embedded part; 503. galvanized angle steel; 504. galvanizing channel steel; 505.

a stainless steel ram; 506. 3mm stainless steel decorative disc; 507. 2mm aluminum veneer; 508.

a stainless steel tube; 509.

a stainless steel tube; 510.

a stainless steel cylinder; 601. heat preservation rock wool; 602. fire prevention rock wool.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The embodiment is as follows:

as shown in figures 1 to 3:

the utility model provides a steel constructs pierces through glass unitized curtain wall system, including cavity doubling glass structure 101, galvanized steel sheet 501, galvanized angle steel 503, galvanized steel channel-section 504 and galvanized steel sheet

A stainless steel tube 509 is provided,

stainless steel pipe 509 is inserted at one side

A stainless steel tube 508 is provided in the form of,

the other side of the stainless steel pipe 509 is sleeved with

A stainless steel take-up lever 505 is provided,

the outer side of the stainless steel ram 505 is sleeved with a 3mm stainless steel decorative disk 506, and the outer side of the 3mm stainless steel decorative disk 506 is sleeved with

A stainless steel cylinder 510 is provided in the inside of the cylinder,

the stainless steel cylinder 510 is connected to the hollow laminated glass structure 101 because of the connection

The stainless steel cylinder 510 is a round pipe with controllable deformation, which not only ensures the deformation allowance but also ensures the deformation coordination problem among different materials, one side of the 3mm stainless steel decorative disc 506 is sequentially connected with the 1.5mm silicon rubber strip 301 and the aluminum section buckle 205 through bolts, and the aluminum section buckle 205 is respectively connected with the aluminum section buckle 205 through bolts

Stainless steel ram 505 is connected with hollow laminated glass structure 101, has further reduced the problem of each material deformation in this curtain system, and the bearing structure cantilever is on major structure, when having guaranteed the reliability of structure, guarantees architect's design intention again, has guaranteed the exterior trim effect.

Wherein, there is 2mm aluminium veneer 507 one side of cavity doubling glass structure 101 through bolted connection, and there is galvanized steel sheet 501 cavity doubling glass structure 101 through bolted connection in the department of keeping away from 2mm aluminium veneer 507, and galvanized steel sheet 501 and 2mm aluminium veneer 507 are in same horizontal plane, and it has heat preservation rock wool 601 to fill between galvanized steel sheet 501 and the 2mm aluminium veneer 507, has improved this curtain system heat preservation thermal-insulated performance.

Wherein, the bottom of 2mm aluminium veneer 507 and galvanized steel sheet 501 has aluminum alloy middle cross beam 203 through bolted connection, there is aluminum alloy upper beam 201 through bolted connection at the top of 2mm aluminium veneer 507 and galvanized steel sheet 501, the top of aluminum alloy upper beam 201 is connected with aluminum alloy lower beam 202, one side of aluminum alloy lower beam 202 is connected with aluminum alloy decoration buckle closure 204, the opposite side of aluminum alloy decoration buckle closure 204 is connected with aluminum alloy window board 209, aluminum alloy window board lock pin 210 has been seted up in the aluminum alloy window board 209, the bottom of aluminum alloy upper beam 201 is connected with aluminum alloy cushion block 206, the wash port has been seted up to the inside of aluminum alloy upper beam 201, make rainwater permeate behind the clearance of cavity doubling glass structure 101 can quick discharge, thereby make the probability of curtain infiltration reduce, guaranteed its waterproof performance.

Wherein, one side of the aluminum alloy cushion block 206 is provided with a plurality of threaded holes, and the threaded holes are respectively connected with an M16X 20 stainless steel inner hexagonal flat end fastening screw 402 and an M12X 40 stainless steel bolt group 403, the M16X 20 stainless steel inner hexagonal flat end fastening screw 402 and the M12X 40 stainless steel bolt group 403 pass through the aluminum alloy cushion block 206 to be connected with an aluminum alloy lug 208, one side of the aluminum alloy lug 208 is provided with a threaded hole, and the ST 6.3X 22 cross-groove pan head self-drilling self-tapping screw 401 is connected in the threaded hole, the ST 6.3X 22 cross-groove pan head self-drilling self-tapping screw 401 connected in the threaded hole passes through the aluminum alloy lug 208 to be connected with an aluminum alloy ground code 207, the top of the aluminum alloy ground code 207 is provided with the aluminum alloy cushion block 206, the aluminum alloy ground code 207 and the inside of the aluminum alloy cushion block 206 are connected with an M16X 60 stainless steel T-shaped bolt 405, the M16X 60 stainless steel T-shaped bolt 405 is connected with a galvanized groove type embedded part 502, this curtain system compares in the frame curtain because of adopting unit modularization mounting means, great shortening installation cycle, because the installation is convenient relatively, has also reduced the on-the-spot manpower demand, can practice thrift the human cost and reduce corresponding administrative cost, has apparent economic nature characteristic.

Wherein, the inside of aluminum alloy cushion 206 is opened with a fixed hole, and the fixed hole is connected with M6X 60 galvanized expansion bolts 406.

Galvanized angle steel 503 is installed at the top of the galvanized steel plate 501, the galvanized angle steel 503 is connected with galvanized channel steel 504 through bolts, a groove is formed in one side of the galvanized steel plate 501, a steel rock wool nail 404 is connected in the groove, and fireproof rock wool 602 is filled between the galvanized steel plate 501 and the galvanized channel steel 504.

And fireproof rock wool 602 is filled between the galvanized groove type embedded part 502 and the galvanized steel plate 501, so that the fireproof performance of the curtain wall system is improved.

The specific use mode and function of the embodiment are as follows:

in the utility model, firstly, the curtain wall is placed at the installation position, then the aluminum alloy upper beam 201, the aluminum alloy lower beam 202, the aluminum alloy middle beam 203 and the aluminum alloy decorative buckle cover 204 are fixedly connected with the aluminum alloy upright post through bolts, the glass is connected with the aluminum alloy upright post and the aluminum alloy cross beam through the middle aluminum alloy decorative buckle cover 204, the middle beam buckle cover matching with the inner adhesive tape of the glass, the black silicone weather-resistant sealant, the two-component black silicone structure sealant and other adhesive tapes, then the aluminum alloy ground platform 207 is connected with the main structure through M16X 60 stainless steel T-shaped bolts 405, M6X 60 zinc-plated expansion bolts 406 and zinc-plated groove type embedded parts 502, then the aluminum alloy upper beam 201 is matched with the aluminum alloy cushion block 206, the aluminum alloy lugs 208 are connected through ST 6.3X 22 cross groove pan head self-drilling self-tapping screws 401, M16X 20 stainless steel inner hexagon flat end fastening screws 402 and M12X 40 stainless steel bolt groups 403, then a 3mm stainless steel decorative disc 506 is used between the hollow laminated glass structure 101 and the supporting structure,

The stainless steel cylinder 510 is connected, the 1.5mm silicon rubber strip 301 is additionally arranged in the middle of the stainless steel cylinder, the stainless steel cylinder is connected with the supporting structure through the aluminum section buckle 205, the heat preservation, heat insulation and fire prevention requirements of the curtain wall are met due to the heat preservation rock wool 601 and the fire prevention rock wool 602, and the drainage holes formed in the aluminum alloy upper cross beam 201 enable rainwater to be rapidly drained after penetrating into the gaps of the hollow laminated glass structure 101, so that the water seepage probability of the curtain wall is reduced, and the waterproof performance of the curtain wall is guaranteed.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. The utility model provides a steel constructs and pierces through glass unitized curtain wall system which characterized in that: comprises a hollow laminated glass structure (101), a galvanized steel plate (501), galvanized angle steel (503), galvanized channel steel (504) and

a stainless steel tube (509), said

One side of the stainless steel pipe (509) is inserted with

A stainless steel tube (508), said

The other side of the stainless steel pipe (509) is sleeved with

A stainless steel ram (505), said

The outer side of the stainless steel ram (505) is sleeved with a 3mm stainless steel decorative disc (506), and the outer side of the 3mm stainless steel decorative disc (506) is sleeved with a

A stainless steel cylinder (510), said

The stainless steel cylinder (510) is in contact with the hollow laminated glass structure (101)Connect, one side of 3mm stainless steel decorative disc (506) has connected gradually 1.5mm silicon rubber strip (301) and aluminium alloy buckle (205) through the bolt, aluminium alloy buckle (205) respectively through bolt and aluminium alloy buckle (205)

The stainless steel cantilever bar (505) is connected with the hollow laminated glass structure (101).

2. The steel-structured penetrating glass unit curtain wall system according to claim 1, wherein: one side of the hollow laminated glass structure (101) is connected with a 2mm aluminum veneer (507) through a bolt, the hollow laminated glass structure (101) is connected with a galvanized steel plate (501) at a position far away from the 2mm aluminum veneer (507) through a bolt, the galvanized steel plate (501) and the 2mm aluminum veneer (507) are located on the same horizontal plane, and heat-preservation rock wool (601) is filled between the galvanized steel plate (501) and the 2mm aluminum veneer (507).

3. The steel-structured penetrating glass unit curtain wall system according to claim 2, wherein: the aluminum alloy window frame is characterized in that the bottom of the 2mm aluminum single plate (507) and the bottom of the galvanized steel plate (501) are connected with an aluminum alloy middle cross beam (203) through bolts, the top of the 2mm aluminum single plate (507) and the top of the galvanized steel plate (501) are connected with an aluminum alloy upper cross beam (201) through bolts, the top of the aluminum alloy upper cross beam (201) is connected with an aluminum alloy lower cross beam (202), one side of the aluminum alloy lower cross beam (202) is connected with an aluminum alloy decorative buckle cover (204), the other side of the aluminum alloy decorative buckle cover (204) is connected with an aluminum alloy window board (209), an aluminum alloy window board inserting core (210) is arranged in the aluminum alloy window board (209), the bottom of the aluminum alloy upper cross beam (201) is connected with an aluminum alloy cushion block (206), and a drain hole is formed in the aluminum alloy upper cross beam (201).

4. The steel-structured penetrating glass unit curtain wall system according to claim 3, wherein: a plurality of threaded holes are formed in one side of the aluminum alloy cushion block (206), M16X 20 stainless steel inner hexagonal flat end fastening screws (402) and M12X 40 stainless steel bolt groups (403) are connected in the threaded holes respectively, the M16X 20 stainless steel inner hexagonal flat end fastening screws (402) and the M12X 40 stainless steel bolt groups (403) penetrate through the aluminum alloy cushion block (206) to be connected with aluminum alloy lugs (208), threaded holes are formed in one side of the aluminum alloy lugs (208), ST 6.3X 22 self-drilling cross-slot pan head self-drilling screws (401) are connected in the threaded holes, ST 6.3X 22 cross-slot pan head self-drilling screws (401) penetrate through the aluminum alloy lugs (208) to be connected with an aluminum alloy floor code (207), the aluminum alloy cushion block (206) is installed at the top of the aluminum alloy floor code (207), and M16X 60 stainless steel T-type bolts (405) are connected between the aluminum alloy floor code (207) and the aluminum alloy cushion block (206), the M16 x 60 stainless steel T-shaped bolt (405) is connected with a galvanized groove type embedded part (502).

5. The steel-structured penetrating glass unit curtain wall system according to claim 4, wherein: fixing holes are formed in the aluminum alloy cushion blocks (206), and M6X 60 galvanized expansion bolts (406) are connected in the fixing holes.

6. The steel-structured penetrating glass unit curtain wall system according to claim 2, wherein: galvanized angle steel (503) are installed at the top of galvanized steel sheet (501), bolted connection is passed through with galvanized channel-section steel (504) to galvanized angle steel (503), the fluting has been seted up to one side of galvanized steel sheet (501), and the fluting in-connection has steel rock wool nail (404), it has fire prevention rock wool (602) to fill between galvanized steel sheet (501) and the galvanized channel-section steel (504).

7. The steel-structured penetrating glass unit curtain wall system according to claim 4, wherein: fireproof rock wool (602) is filled between the galvanized groove type embedded part (502) and the galvanized steel plate (501).

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