CN220538954U - Reticular steel structure compounded with stone bricks and composite hollow bricks - Google Patents

Abstract

The utility model relates to the technical field of assembled buildings and discloses a reticular steel structure compounded with stone bricks and composite hollow bricks, which comprises upright column square steel pipes, wherein transverse flat steel is inserted into the outer walls of the upright column square steel pipes through brick joints of stones of the upright column square steel pipes, and a rectangular square steel pipe of a roof beam is welded above the outer walls of the upright column square steel pipes. The reticular steel structure compounded with the stone bricks and the composite hollow bricks forms a wall body of the stone steel or brick steel composite structure together with the stone bricks or the hollow bricks through arranging the reticular steel structure, and the structure is stable, safe and reliable. The high-strength bearing capacity of the stone bricks and the hollow bricks is exerted, the advantages of good flexibility, strong deformation resistance and the like of the steel materials are utilized to jointly form a group of stress-resisting and stress-receiving structural system, the rigidity and softness are combined, the stress is generated in a symbiotic manner, the impact, the push-pull and the bending torsion in all directions can be born, the durability and the safety of stone or hollow brick buildings can be kept, the earthquake-resistant grade is improved, the building assembly is realized, and the steel is used for reducing the weight and the weight.

Description

Reticular steel structure compounded with stone bricks and composite hollow bricks

Technical Field

The utility model relates to the technical field of assembled buildings, in particular to a reticular steel structure compounded with stone bricks and composite hollow bricks.

Background

Stone buildings are paleive and inherited for thousands of years, but have very slow development, and are only found in palace, temple, fete, tomb, daffodil and the like. The stone is heavy, difficult to process, inconvenient to transport and construct and high in cost, so that the stone is difficult to enter common families. The connecting parts of the large stone supporting members such as stone columns and stone beams are small in stress surface, and are not enough in unidirectional stress, lateral tensile force and impact resistance. The hollow brick wall body is the same as stone bricks, and has strong vertical compressive resistance, but has poor lateral stress and impact resistance, so that the requirement of wall body structure safety is difficult to meet. The method uses old methods such as stacking, bonding material grouting, connecting piece pin joint (used in the Pa-tien temple), post-tensioning technology and the like to innovatively develop a net-shaped steel structure compounded with stone bricks or hollow brick walls, solves the problem of safety of the stone bricks and hollow brick walls, and realizes building assembly and modernization.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a reticular steel structure compounded with stone bricks and composite hollow bricks.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a mesh steel construction with stone material brick and compound hollow brick complex, includes stand side steel pipe, the outer wall of stand side steel pipe has horizontal band steel through the brick joint grafting of its stone material, the top welding of stand side steel pipe outer wall has the rectangular side steel pipe of roof beam, the welding of the below of stand side steel pipe outer wall has the girder steel flat, horizontal band steel has vertical band steel through hollow brick grafting.

Preferably, the upright post square steel pipe is fixedly welded on a base of a building foundation.

Preferably, the upright post square steel pipe, the overhead beam rectangular square steel pipe, the transverse flat steel, the ground beam flat steel and the vertical flat steel form a cross-shaped reticular steel structure after being welded with each other. The wall body with the stone steel or brick steel composite structure is formed by arranging the cross-shaped reticular steel structure and the stone bricks or hollow bricks together, so that the wall body is safe and stable.

Preferably, the upright column square steel pipe and the rectangular square steel pipe of the roof beam can be replaced by steel sections or special steel sections such as angle steel, H-steel, channel steel, I-steel and the like.

Preferably, stone bricks or hollow bricks are arranged on two sides of the transverse flat steel. The stone bricks or hollow bricks horizontally covering the two sides play roles of dispersing stress and uniformly receiving stress.

Preferably, the top of the rectangular square steel tube of the roof beam is provided with a reinforced concrete structure with a floor plate and a roof plate cast-in-situ. The reinforced concrete structure is arranged to play an additional role in lacing reinforcement, so that the safety and stability of the stone steel and brick steel composite building are further enhanced.

(III) beneficial effects

Compared with the prior art, the utility model provides a reticular steel structure compounded with stone bricks and composite hollow bricks, which has the following beneficial effects:

the reticular steel structure compounded with the stone bricks and the composite hollow bricks forms a wall body of the stone steel or brick steel composite structure together with the stone bricks or the hollow bricks through arranging the reticular steel structure, and the structure is stable, safe and reliable. The high-strength bearing capacity of the stone bricks and the hollow bricks is exerted, the advantages of good flexibility, strong deformation resistance and the like of the steel materials are utilized to jointly form a group of stress-resisting and stress-receiving structural system, the rigidity and softness are combined, the stress is generated in a symbiotic manner, the impact, the push-pull and the bending torsion in all directions can be born, the durability and the safety of stone or hollow brick buildings can be kept, the earthquake-resistant grade is improved, the building assembly is realized, and the steel is used for reducing the weight and the weight.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic view of a first view of the present utility model;

fig. 2 is a schematic structural diagram of the present utility model at a second view angle.

In the figure: 1. upright column square steel pipes; 2. rectangular square steel pipes of the roof beam; 3. transverse flat steel; 4. ground beam flat steel; 5. vertical flat steel.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

As shown in fig. 1-2, the utility model provides a net-shaped steel structure compounded with stone bricks and composite hollow bricks, which comprises a column square steel pipe 1, wherein the outer wall of the column square steel pipe 1 is inserted with a transverse flat steel 3 through a brick joint of stone materials, a rectangular square steel pipe 2 of a roof beam is welded above the outer wall of the column square steel pipe 1, a flat steel 4 of a ground beam is welded below the outer wall of the column square steel pipe 1, and the transverse flat steel 3 is inserted with a vertical flat steel 5 through a hollow brick. The upright column square steel pipe 1 is fixedly welded on a base of a building foundation. The upright column square steel pipe 1, the roof beam rectangular square steel pipe 2, the transverse flat steel 3, the ground beam flat steel 4 and the vertical flat steel 5 form a groined-shaped reticular steel structure after being welded with each other. The wall body with the stone steel or brick steel composite structure is formed by arranging the cross-shaped reticular steel structure and the stone bricks or hollow bricks together, so that the wall body is safe and stable. The upright column square steel pipe 1 and the roof beam rectangular square steel pipe 2 can be replaced by steel sections or special steel sections such as angle steel, H-steel, channel steel, I-steel and the like. Stone bricks or hollow bricks are arranged on two sides of the transverse flat steel 3. The stone bricks or hollow bricks horizontally covering the two sides play roles of dispersing stress and uniformly receiving stress. The top of the rectangular square steel tube 2 of the roof beam is provided with a reinforced concrete structure of a floor slab and a roof slab cast-in-situ. The reinforced concrete structure is arranged to play an additional role in lacing reinforcement, so that the safety and stability of the stone steel and brick steel composite building are further enhanced.

In the embodiment, the reticular steel structure and the stone bricks or the hollow bricks form the stone steel or brick steel composite structure wall together, so that the structure is stable, safe and reliable. The high-strength bearing capacity of the stone bricks and the hollow bricks is exerted, the advantages of good flexibility, strong deformation resistance and the like of the steel materials are utilized to jointly form a group of stress-resisting and stress-receiving structural system, the rigidity and softness are combined, the stress is generated in a symbiotic manner, the impact, the push-pull and the bending torsion in all directions can be born, the durability and the safety of stone or hollow brick buildings can be kept, the earthquake-resistant grade is improved, the building assembly is realized, and the steel is used for reducing the weight and the weight.

The working principle of the reticular steel structure compounded with stone bricks and composite hollow bricks is specifically described below.

As shown in figures 1-2, the net-shaped steel structure and the stone bricks or hollow bricks are arranged together to form the stone steel or brick steel composite structure wall body when in use, so that the structure is stable, safe and reliable. The high-strength bearing capacity of the stone bricks and the hollow bricks is exerted, the advantages of good flexibility, strong deformation resistance and the like of the steel materials are utilized to jointly form a group of stress-resisting and stress-receiving structural system, the rigidity and softness are combined, the stress is generated in a symbiotic manner, the impact, the push-pull and the bending torsion in all directions can be born, the durability and the safety of stone or hollow brick buildings can be kept, the earthquake-resistant grade is improved, the building assembly is realized, and the steel is used for reducing the weight and the weight.

Claims (5)

1. The utility model provides a with stone material brick and compound hollow brick complex netted steel construction, includes stand square steel pipe (1), its characterized in that: the outer wall of stand side steel pipe (1) has horizontal band steel (3) through the brick joint grafting of its stone material, the top welding of stand side steel pipe (1) outer wall has roof beam rectangle side steel pipe (2), the welding of the below of stand side steel pipe (1) outer wall has girder band steel (4), horizontal band steel (3) have vertical band steel (5) through hollow brick grafting, stand side steel pipe (1) fixed welding is on the base of building foundation.

2. A reticulated steel structure composited with stone tiles and composite hollow tiles as claimed in claim 1, wherein: the upright column square steel pipe (1), the ceiling beam rectangular square steel pipe (2), the transverse flat steel (3), the ground beam flat steel (4) and the vertical flat steel (5) are welded with each other to form a groined mesh steel structure.

3. A reticulated steel structure composited with stone tiles and composite hollow tiles as claimed in claim 1, wherein: the upright column square steel pipe (1) and the ceiling beam rectangular square steel pipe (2) can use angle steel, H-shaped steel, channel steel and I-shaped steel.

4. A reticulated steel structure composited with stone tiles and composite hollow tiles as claimed in claim 1, wherein: stone bricks or hollow bricks are arranged on two sides of the transverse flat steel (3).

5. A reticulated steel structure composited with stone tiles and composite hollow tiles as claimed in claim 1, wherein: the top of the rectangular square steel tube (2) of the roof beam is provided with a reinforced concrete structure of which the floor board and the roof board are cast in situ.