CN216641048U - Single-cavity combined type aluminum alloy non-heat-insulation fireproof partition - Google Patents

Abstract

The utility model discloses a single-cavity combined type aluminum alloy non-heat-insulation fireproof partition, which comprises a square aluminum alloy section with a hollow structure, wherein one side edge of the aluminum alloy section extends outwards to form a first flange, a first buckle is arranged at the same side of the aluminum alloy section, first glass supporting sheets are fixed on one side of the aluminum alloy section and the first flange, a first L-shaped pressing line is fixed on the first glass supporting sheet, a first glass installation groove for placing glass is formed between the first L-shaped pressing line and the first glass supporting sheet, a first pressing line cover plate is clamped in the first buckle, the middle parts of two sides of the aluminum alloy section contract inwards to form two concave tables, the two concave tables form a cavity inside the aluminum alloy section, a rectangular steel pipe and movable angle codes are placed inside the cavity, the inserted movable angle codes are distributed at two ends of the steel rectangular steel pipe, and the first glass supporting sheet and the second glass supporting sheet both extend to the concave tables, the utility model enables the site construction to be simple, the construction efficiency is high, and the strength and convenience in large-specification partition installation can be guaranteed.

Description

Single-cavity combined type aluminum alloy non-heat-insulation fireproof partition

Technical Field

The utility model relates to a fireproof partition, and belongs to the technical field of building material decoration.

Background

The glass fire partition is used for both the building fire partition and the fire partition, so that the building decoration effect and the building fire are considered at the same time, and the glass fire partition is widely applied to galleries and fire passages of office buildings, fire passage galleries of hospitals, fire compartments of public buildings and residential buildings and the like; along with the continuous improvement of people's fire protection consciousness, the requirement on the fire protection performance of the building is also increasingly urgent.

At present, the traditional aluminum-clad steel uses a steel section as a main body, adopts a welding mode to form a frame, and finally uses an aluminum alloy cover plate to buckle the frame as a decoration; the method has the disadvantages that the welding mode is not simple and troublesome in site construction, and the construction efficiency is low; meanwhile, the existing aluminum alloy partition has better strength when manufacturing partitions with small size and small specification, but can not ensure better stability when manufacturing partitions with larger size and dimension.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems of not simple field construction and low construction efficiency in the prior art, and provides a cavity combined type aluminum alloy non-heat-insulation fireproof partition which can improve the construction efficiency and ensure the strength and convenience for mounting a large-size partition.

The technical scheme of the utility model is as follows: a single-cavity combined aluminum alloy non-heat-insulation fireproof partition comprises a square aluminum alloy section with a hollow structure, one side edge of the aluminum alloy section extends outwards to form a first retaining edge, a first buckle is arranged at the same side, a first glass supporting sheet is fixed at one side of the aluminum alloy section and the first flange, a first L-shaped pressing line is fixed on the first glass supporting sheet, a first glass installation groove for placing glass is formed between the first L-shaped pressing line and the first glass supporting sheet, the first buckle is internally clamped with a first pressing line cover plate, the middle parts of the two sides of the aluminum alloy section are inwards contracted to form two concave tables, the two concave tables divide the interior of the aluminum alloy section into three communicated cavities which are respectively a first cavity, a second cavity and a third cavity, the first cavity and the third cavity are positioned on two sides of the second cavity; the steel rectangular pipe that runs through three cavity has been placed to aluminum alloy ex-trusions inside, and first cavity and third cavity all are used for grafting activity angle sign indicating number, and the activity angle sign indicating number of just pegging graft distributes at the both ends of steel rectangular pipe, first glass support piece and second glass support piece all extend to the concave station sets up.

When the glass support is installed, the first glass support sheet is fixed on the aluminum alloy section, then glass is placed in the glass support sheet to enable the glass to be attached to the first flange, then the first pressing line is fixed on the glass support sheet to complete installation of the glass, finally, a pressing line cover plate is pressed on the glass support sheet to complete installation of a single aluminum alloy section and the glass, then the aluminum alloy sections on the other edges are installed with the glass, then the joint of two adjacent aluminum alloy sections is connected through the movable corner connectors, and finally, the L-shaped connecting piece is inserted into the concave tables of the two adjacent aluminum alloy sections and fixed.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the flange is arranged on one side of the aluminum alloy section, so that the aluminum alloy section can be directly processed in the forming process, and only one group of L-shaped pressing line and a pressing line cover plate need to be installed during installation, so that the installation efficiency is improved; in addition, the aluminum alloy section is designed into a three-cavity structure, and the steel rectangular pipe is placed in the cavity, so that the mounting frame only needs to penetrate through the aluminum alloy section through a screw to be fixed on the steel rectangular pipe during mounting; meanwhile, the movable corner connector splicing cavities at the upper end and the lower end are matched with the movable corner connectors, so that the whole square frame can be conveniently spliced; compared with the traditional welding mode, the construction mode is simpler on site and has higher efficiency; the first cavity and the second cavity on two sides formed by processing the concave station can be well matched with the installation of the movable corner connectors, and meanwhile, the second cavity formed by the concave station can well limit the movement of the steel rectangular pipe in the aluminum alloy section bar, so that the difficulty is reduced; the concave platform can be beneficial to better hidden appearance of the connecting piece when two adjacent aluminum alloy sections are fixed in the later period, and no bulge is formed; the utility model is more convenient in miniaturization use, small and exquisite, and can ensure the integral strength, and the communicated cavity is more convenient in processing and lower in cost.

In order to realize longer partition extension, the edge of the other side of the aluminum alloy section extends outwards to form a second retaining edge, a second buckle is arranged on the same side of the aluminum alloy section, a second glass supporting sheet is fixed on the other side of the aluminum alloy section and the second retaining edge, a second L-shaped pressing line is fixed on the second glass supporting sheet, a second glass installation groove for placing glass is formed between the second L-shaped pressing line and the second glass supporting sheet, and a second pressing line cover plate is connected in the second buckle in a clamping mode.

As a further limitation of the utility model, the first L-shaped pressing line, the first glass supporting sheet, the aluminum alloy section and the steel rectangular pipe are fixedly connected together through a first screw. The design further enhances the strength of the whole structure.

As a further limitation of the utility model, the second L-shaped pressing line, the second glass supporting sheet, the aluminum alloy section and the steel rectangular pipe are fixedly connected together through a second screw. The design further enhances the strength of the whole structure.

As a further limitation of the utility model, fire-proof smoke-blocking bars are also arranged on two sides of the glass in the first glass mounting groove and the second glass mounting groove. The design further enhances the fire-proof performance of the utility model.

As a further limitation of the utility model, glass cushion blocks are also arranged at the bottom of the glass in the first glass mounting groove and the second glass mounting groove. So design avoids glass and aluminum alloy ex-trusions to contact firmly, eliminates the potential safety hazard.

As a further limitation of the utility model, the first flange, the first pressing line cover plate and the glass are sealed by flame-retardant sealant. The glass sealing performance can be further enhanced by the design.

As a further limitation of the utility model, the second flange, the second pressing line cover plate and the glass are sealed by flame-retardant sealant. The glass sealing performance can be further enhanced by the design.

Drawings

FIG. 1 is a sectional view of example 1.

FIG. 2 is a sectional view of example 2.

FIG. 3 is a schematic combination of the two embodiments 1.

Fig. 4 is a schematic view of the combination of example 1 and example 2.

FIG. 5 is a schematic view showing the assembly of the aluminum alloy section bar, the movable corner connector and the steel rectangular pipe in example 1.

Fig. 6 is a schematic view of a square frame structure formed in embodiment 1.

Fig. 7 is an enlarged view of a portion a in fig. 5.

Fig. 8 is a schematic structural view of a square frame composed of embodiments 1 and 2.

The aluminum alloy section bar comprises an aluminum alloy section bar 1, a first cavity body 1a, a second cavity body 1b, a third cavity body 1c, a concave table 1d, a groove 1e, a first flange 1f, a first glass mounting groove 1g, a first buckle 1h, a second flange 1i, a second glass mounting groove 1j, a second buckle 1k, a rectangular steel tube 2, a movable corner brace 3, a first glass supporting sheet 4, a first L-shaped pressing line 5, a first pressing line cover plate 6, glass 7, a fireproof smoke blocking strip 8, a glass cushion block 9, a screw 10, a flame-retardant sealant 11, a connecting piece 12L-shaped, a second glass supporting sheet 13, a second L-shaped pressing line 14 and a second pressing line cover plate 15.

Detailed Description

Example 1

As shown in figures 1 and 5, a single-cavity combined aluminum alloy non-heat-insulation fireproof partition comprises an aluminum alloy section 1 with a square hollow structure, wherein one side edge of the aluminum alloy section 1 extends outwards to form a first flange 1f, a first buckle 1h is arranged on the same side of the aluminum alloy section 1, a first glass supporting sheet 4 is fixed on one side of the aluminum alloy section 1 and the first flange 1f, a first L-shaped pressing line 5 is fixed on the first glass supporting sheet 4, a first glass installation groove 1g for placing glass 7 is formed between the first L-shaped pressing line 5 and the first glass supporting sheet 4, a first pressing line cover plate 6 is clamped in the first buckle 1h, the middle parts of two sides of the aluminum alloy section 1 contract inwards to form two concave platforms 1d, a groove 1e is formed outside the concave platform 1d, the two concave platforms 1d divide the interior of the aluminum alloy section 1 into three communicated aluminum alloy cavities, namely a first cavity 1a, a second cavity 1b and a third cavity 1c, the second cavity 1b is positioned in the middle, and the first cavity 1a and the third cavity 1c are positioned on two sides of the second cavity 1 b; inside steel rectangular pipe 2 of running through three cavity of having placed of aluminum alloy ex-trusions 1, first cavity 1a and third cavity 1c all are used for grafting activity angle sign indicating number 3, and 3 distribution of grafting activity angle sign indicating numbers are at the both ends of steel rectangular pipe 2, first glass support piece 4 extends to concave station 1d and sets up, first L shape line ball 5, first glass support piece 4, aluminum alloy ex-trusions 1, steel rectangular pipe 2 is in the same place through first screw 10 fixed connection, it still is equipped with fire prevention smoke stop strip 8 still to be located glass 7 both sides in the first glass mounting groove 1g, it still is equipped with glass cushion 9 to be located glass 7 bottom in the first glass mounting groove 1g, first flange 1f, it is sealed through fire-retardant sealed glue 11 to seal between first line ball apron 6 and the glass 7.

Example 2

As shown in figure 2, a single-cavity combined aluminum alloy non-heat-insulation fireproof partition comprises a square aluminum alloy section 1 with a hollow structure, wherein one side edge of the aluminum alloy section 1 extends outwards to form a first flange 1f, a first buckle 1h is arranged on the same side, a first glass supporting sheet 4 is fixed on one side of the aluminum alloy section 1 and the first flange 1f, a first L-shaped pressing line 5 is fixed on the first glass supporting sheet 4, a first glass installation groove 1g for placing glass 7 is formed between the first L-shaped pressing line 5 and the first glass supporting sheet 4, a first pressing line cover plate 6 is clamped in the first buckle 1h, the other side edge of the aluminum alloy section 1 extends outwards to form a second flange 1i, a second buckle 1k is arranged on the same side, a second glass supporting sheet 13 is fixed on the other side of the aluminum alloy section 1 and the second flange 1i, a second L-shaped pressing line 14 is fixed on the second glass supporting sheet 13, a second glass installation groove 1j for placing the glass 7 is formed between the second L-shaped pressing line 14 and the second glass supporting sheet 13, a second pressing line cover plate 15 is connected in a clamping manner in the second buckle 1k, the middle parts of two sides of the aluminum alloy section bar 1 contract inwards to form two concave platforms 1d, a groove 1e is formed outside the concave platform 1d, the inside of the aluminum alloy section bar 1 is divided into three communicated cavities by the two concave platforms 1d, namely a first cavity 1a, a second cavity 1b and a third cavity 1c, wherein the second cavity 1b is positioned in the middle part, and the first cavity 1a and the third cavity 1c are positioned on two sides of the second cavity 1 b; the steel rectangular pipe 2 penetrating through the three cavities is placed inside the aluminum alloy section 1, the first cavity 1a and the third cavity 1c are used for being connected with the movable corner connectors 3 in an inserting mode, the movable corner connectors 3 in the inserting mode are distributed at two ends of the steel rectangular pipe 2, the first glass supporting sheet 4 and the second glass supporting sheet 13 extend to the concave table 1d, the first L-shaped pressing line 5, the first glass supporting sheet 4, the aluminum alloy section 1 and the steel rectangular pipe 2 are fixedly connected together through the first screws 10, the second L-shaped pressing line 14, the second glass supporting sheet 13, the aluminum alloy section 1 and the steel rectangular pipe 2 are fixedly connected together through the second screws 10, fire-proof smoke blocking strips 8 are further arranged on two sides of the glass 7 in the first glass mounting groove 1g and the second glass mounting groove 1j, glass cushion blocks 9 are further arranged on the bottoms of the glass 7 in the first glass mounting groove 1g and the second glass mounting groove 1j, the first blocking edges 1f, the second blocking edges, the second blocking strips are arranged on two sides of the glass mounting grooves, and the bottoms of the glass mounting grooves 1j, and the glass mounting grooves are further provided with the glass blocks 9, The first pressing line cover plate 6 and the glass 7 are sealed through the flame-retardant sealant 11, and the second flange 1i, the second pressing line cover plate 15 and the glass 7 are sealed through the flame-retardant sealant 11.

When the aluminum alloy profile is installed, a first glass supporting sheet 4 is fixed on an aluminum alloy profile 1, then glass 7 is placed in the glass supporting sheet to enable the glass supporting sheet to be attached to a first flange 1f, then a first pressing line is fixed on the glass 7, finally a pressing line cover plate is pressed on the glass 7 to complete installation of a single aluminum alloy profile 1 and the glass 7, then the aluminum alloy profiles 1 on the rest edges are installed on the glass 7, the joint of two adjacent aluminum alloy profiles 1 is connected through a movable corner connector 3, and finally an L-shaped connecting piece 12 is inserted into a groove 1e of the two adjacent aluminum alloy profiles 1 and fixed.

During specific assembly, as shown in fig. 3 and 6, four embodiments 1 can be selected to assemble a square frame, or four embodiments 1 plus one embodiment 2 can be selected to assemble a square frame, and so on, so that installation of small-sized partitions can be realized, and installation of large-sized partitions can also be realized.

Claims (8)

1. The single-cavity combined type aluminum alloy non-heat-insulation fireproof partition is characterized by comprising an aluminum alloy section (1) with a square hollow structure, wherein one side edge of the aluminum alloy section (1) extends outwards to form a first flange (1f), a first buckle (1h) is arranged on the same side of the aluminum alloy section, a first glass supporting sheet (4) is fixed on one side of the aluminum alloy section (1) and the first flange (1f), a first L-shaped pressing line (5) is fixed on the first glass supporting sheet (4), a first glass installation groove (1g) for placing glass (7) is formed between the first L-shaped pressing line (5) and the first glass supporting sheet (4), a first pressing line cover plate (6) is clamped in the first buckle (1h), the middle parts of two sides of the aluminum alloy section (1) contract inwards to form two concave tables (1d), and the two concave tables (1d) divide the interior of the aluminum alloy section (1) into three cavities which are communicated with each other, the cavity structure comprises a first cavity (1a), a second cavity (1b) and a third cavity (1c), wherein the second cavity (1b) is located in the middle, and the first cavity (1a) and the third cavity (1c) are located on two sides of the second cavity (1 b); aluminum alloy ex-trusions (1) is inside to be placed steel rectangular pipe (2) that runs through three cavity, and first cavity (1a) and third cavity (1c) all are used for grafting activity angle sign indicating number (3), and the activity angle sign indicating number of just pegging graft (3) distribute at the both ends of steel rectangular pipe (2), first glass support piece (4) and second glass support piece (13) all extend to concave station (1d) sets up.

2. The single-cavity combined type aluminum alloy non-heat-insulation fireproof partition according to claim 1, wherein a second rib (1i) is formed by extending the edge of the other side of the aluminum alloy section (1) outwards, a second buckle (1k) is arranged on the same side of the aluminum alloy section (1), a second glass supporting sheet (13) is fixed on the other side of the aluminum alloy section (1) and the second rib (1i), a second L-shaped pressing line (14) is fixed on the second glass supporting sheet (13), a second glass installation groove (1j) for placing glass (7) is formed between the second L-shaped pressing line (14) and the second glass supporting sheet (13), and a second pressing line cover plate (15) is connected to the second buckle (1k) in a clamping manner.

3. The single-cavity combined type aluminum alloy non-heat-insulation fireproof partition wall as claimed in claim 2, wherein the first L-shaped pressing line (5), the first glass supporting sheet (4), the aluminum alloy section (1) and the steel rectangular pipe (2) are fixedly connected together through a first screw (10).

4. The single-cavity combined type aluminum alloy non-heat-insulation fireproof partition wall as claimed in claim 2, wherein the second L-shaped pressing line (14), the second glass supporting sheet (13), the aluminum alloy section (1) and the steel rectangular pipe (2) are fixedly connected together through a second screw (10).

5. The single-cavity combined type aluminum alloy non-heat-insulation fireproof partition wall as claimed in claim 2, wherein fireproof smoke-blocking strips (8) are further arranged on two sides of the glass (7) in the first glass mounting groove (1g) and the second glass mounting groove (1 j).

6. The single-cavity combined type aluminum alloy non-heat-insulation fireproof partition according to claim 2, wherein a glass cushion block (9) is further arranged at the bottom of the glass (7) in the first glass installation groove (1g) and the second glass installation groove (1 j).

7. The single-cavity combined aluminum alloy non-heat-insulation fireproof partition according to claim 2, wherein the first rib (1f), the first pressing line cover plate (6) and the glass (7) are sealed by a flame-retardant sealant (11).

8. The single-cavity combined aluminum alloy non-heat-insulation fireproof partition according to claim 2, wherein the second rib (1i), the second pressing line cover plate (15) and the glass (7) are sealed by a flame-retardant sealant (11).

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