CN112942569A - Detachable connecting joint of steel beam and reinforced concrete column - Google Patents

Abstract

The invention relates to a steel-concrete rigid joint structure, in particular to a detachable connecting joint of a steel beam and a reinforced concrete column, which is structurally characterized by further comprising beam-side bearing steel plates and fixedly connected bearing steel plates, wherein a plurality of steel sleeves are arranged between the two bearing steel plates, are communicated with a plurality of through holes on the two bearing steel plates in a one-to-one correspondence manner and are connected together through welding to form an embedded body, the embedded body is positioned in the reinforced concrete column, a front end plate is fixedly arranged on one side of the steel beam, a plurality of screw holes which correspond to the through holes on the beam-side bearing steel plates in a one-to-one correspondence manner are arranged on the front end plate, high-strength bolts penetrate through the screw holes of the front end plate and the bolt holes of the embedded body, and two ends of the high-. The invention has the advantages that: the precision of the bolt pore of pre-buried body and the screw of girder steel front end plate counterpoint has been promoted, reduces the repeated loading and unloading construction of girder steel, has improved the efficiency of construction, has increased the rigidity and the bearing capacity of node, has optimized the atress structure, has avoided the local crushing of reinforced concrete column.

Description

Detachable connecting joint of steel beam and reinforced concrete column

Technical Field

The invention relates to a steel-concrete rigid joint structure, in particular to a detachable joint of a steel beam and a reinforced concrete column.

Background

The steel-concrete composite structure is a structural system with the advantages of a steel structure and a concrete structure, and the steel structure has high strength and good ductility, so that the steel-concrete composite structure has the advantage of strong spanning capability when being used as a beam in the steel-concrete composite structure; the reinforced concrete structure has high compressive strength and rigidity, and has better lateral rigidity resistance and durability when used as a center pillar of a composite structure. The connection node of the steel beam and the reinforced concrete column can be divided into a rigid connection node and a hinge node according to whether the connection node can transmit bending moment or not, wherein when the rigid connection node is adopted, the steel beam is fixed on an embedded part of the reinforced concrete column in a welding mode or fixed in a mode that a high-strength bolt penetrates through the reinforced concrete column, and the rigid connection node can bear the bending moment and has the function of transmitting the shearing force and the bending moment of the steel beam end to the concrete column.

The rigid connection node has the following defects:

when the steel beam is fixed on the embedded part of the reinforced concrete column in a welding mode, the rigidity of the embedded part is smaller than that of the steel beam, but the embedded part needs to bear shearing force and bending moment at the same time, so that the embedded part is easy to pull out, the node fails, the bearing capacity and the rigidity cannot be ensured, and the stability of a connecting point is poor. In addition, because the welding mode is a one-off fixed connection, the disassembly is difficult and the adjustment cannot be realized.

When the steel beam is fixed in a mode that the high-strength bolt penetrates through the reinforced concrete column, firstly, steel pipe sleeves for penetrating the bolts are embedded in the concrete column one by one on site, then the high-strength bolt is adopted to connect the steel beam, and the high-strength bolt and the node bear shearing force and bending moment transmitted by the steel beam together, so that the bolt is in a multidirectional stress state, even concrete is locally crushed, and the bending resistance bearing capacity and the ductility of the node are reduced; in addition, the steel sleeve and the steel beam side hole which are directly embedded are possibly not aligned, so that the bolt cannot pass through the steel sleeve and the steel beam side hole, the steel beam is required to be assembled and disassembled again at the moment, the construction efficiency is low, the operation is troublesome, and the steel beam is not supported, so that the dismantling difficulty of the high-strength bolt is high.

Disclosure of Invention

The invention aims to provide the detachable connecting joint of the steel beam and the reinforced concrete column, which is convenient to detach, ensures the bearing capacity and the rigidity, improves the connecting stability and is simple to operate according to the defects of the prior art.

The purpose of the invention is realized by the following ways:

a detachable connection node of a steel beam and a reinforced concrete column comprises the steel beam, the reinforced concrete column, a plurality of high-strength bolts and a plurality of steel sleeves embedded in the reinforced concrete column, the structure is characterized by also comprising a beam side pressure-bearing steel plate and a fixedly connected pressure-bearing steel plate, wherein a plurality of through holes are uniformly distributed on the beam side pressure-bearing steel plate and the fixedly connected pressure-bearing steel plate, the steel sleeves are arranged between the beam side bearing steel plate and the fixedly connected bearing steel plate, are communicated with the through holes on the two bearing steel plates in a one-to-one correspondence manner and are connected together by welding to form an embedded body, the beam side bearing steel plate, the through holes on the fixedly connected bearing steel plate and the hollow inner cavity of the steel pipe sleeve form a bolt hole channel of the embedded body, the embedded body is positioned in the reinforced concrete column, the outer side end faces of the two bearing steel plates are flush with the cylindrical surface of the reinforced concrete column, and the beam side bearing plate is positioned on one side of the reinforced concrete column connected with the steel beam; the front end plate is fixedly installed on one side, connected with the reinforced concrete column, of the steel beam, a plurality of screw holes in one-to-one correspondence with the through holes in the beam-side pressure-bearing steel plate are formed in the front end plate, the high-strength bolts penetrate through the screw holes in the front end plate and the pre-buried body bolt hole channels, and two ends of the high-strength bolts are exposed and screwed and fixed to connect the steel beam and the reinforced concrete column.

The beam side bearing steel plate, the fixedly connected bearing steel plate and the steel sleeve form an embedded body, and then the embedded body is integrally poured in the concrete column, and the embedded body can be prefabricated in a factory or outside the field without field construction operation, so that the construction efficiency is greatly improved; because the steel pipe sleeve can be accurately positioned by the beam side bearing steel plate and the fixedly connected bearing steel plate, the alignment precision of the bolt hole of the embedded body and the screw hole of the front end plate of the steel beam is greatly improved, and the repeated loading and unloading construction of the steel beam is reduced; moreover, the beam side pressure-bearing steel plate and the fixedly connected pressure-bearing steel plate can bear the pressure transmitted by the high-strength bolt together with the steel sleeve as a whole, so that the steel sleeve is prevented from being directly pressed on concrete to cause local crushing, and the rigidity and the bearing capacity of the node are improved.

The invention may further be embodied as:

still including the steel corbel, steel corbel fixed mounting is on the reinforced concrete column of girder steel front end plate below, and the girder steel front end plate leans on the up end of putting at this steel corbel.

The steel corbel is welded and fixed with an embedded part in the reinforced concrete column directly or the area of the beam side pressure-bearing steel plate is larger than that of the steel beam front end plate, and the steel corbel is fixed on the beam side pressure-bearing steel plate below the steel beam front end plate.

Therefore, the steel beam can be directly placed on the steel bracket, and the steel bracket is used for bearing the shearing force of the front end part of the steel beam, namely the shearing force of the connecting node, so that the high-strength bolt group only bears the bending moment of the steel beam in the node, and the bolt group at the moment only bears unidirectional tensile force, and the bearing capacity of the bolt group is greatly improved. In addition, when the steel corbel bears the shearing force, the shearing force can be directly or indirectly transmitted to the reinforced concrete column through the embedded body where the beam side bearing steel plate is located, and the stress is more direct and reliable. In addition, when the installation steel corbel gives the girder steel and has supported in advance, can also regard as the benchmark butt joint of girder steel front end plate and roof beam side pressure-bearing steel sheet simultaneously, no matter be when the girder steel installation like this, still during the girder steel is dismantled, the operation is installed and is dismantled with very convenient the equal very installing of high strength bolt.

The steel beam is of an I-shaped structure, the end side of the steel beam is welded on the front end plate and is in an I-shaped connection shape, and the screw holes in the front end plate of the steel beam, corresponding to the bolt pore channels of the embedded body, are distributed in the middle of the I-shaped connection shape or on the upper side part and the lower side part of the I-shaped connection shape.

When the screw holes on the front end plate of the steel beam are distributed on the upper side part and the lower side part of the I-shaped connecting shape, the bolt groups connected with the corresponding embedded body bolt pore passages are divided into an upper group and a lower group which are distributed around the two transverse parts of the I-shaped connecting shape.

The steel beam front end plate is provided with a plurality of pre-buried body bolt holes, and the rear fixing end plate is fixedly connected with one side of the bearing steel plate and is overlapped with the fixedly connected bearing steel plate.

The rear fixed end plate is used for bearing the tensile force of the bolts and transmitting the tensile force in the bolt group to the pressure-bearing steel plate on the corresponding side (the front end plate transmits the pressure-bearing steel plate on the beam side and the rear fixed end plate transmits the pressure-bearing steel plate on the fixed connection), thereby improving the bearing capacity, facilitating the force diffusion and avoiding local crushing of the reinforced concrete column.

In summary, the invention provides a detachable connection node of a steel beam and a reinforced concrete column, and the detachable connection node has the advantages that the steel sleeve with the pressure-bearing steel plates at two ends is arranged as the embedded body, so that the alignment precision of a bolt hole of the embedded body and a screw hole of a front end plate of the steel beam is improved, the repeated loading and unloading construction of the steel beam is reduced, the construction efficiency is improved, the rigidity and the bearing capacity of the node are increased, the stress structure is optimized, and the local crushing of the reinforced concrete column is avoided.

Drawings

FIG. 1 is a schematic structural view of a detachable connection node of a steel beam and a reinforced concrete column according to the present invention;

FIG. 2 is a schematic sectional view taken along the line A in FIG. 1;

fig. 3 is a schematic structural view of an embedded body in a detachable connection node of the steel beam and the reinforced concrete column.

The present invention will be further described with reference to the following examples.

Detailed Description

The best embodiment is as follows:

referring to the attached drawings 1-3, a detachable connection node of a steel beam and a reinforced concrete column comprises a steel beam 1, the reinforced concrete column 2, a rear fixed end plate 10, a bolt group consisting of a plurality of high-strength bolts 3 and an embedded body. The steel beam 1 is of an I-shaped structure, a front end plate 7 is welded at the end part of the steel beam, and stiffening ribs 8 are arranged at the upper part, the lower part and the middle part of the I-shaped connecting shape on the front end plate 7. The rear fixed end plate 10 is identical with the front end plate 7 in structure and size.

The embedded body comprises a beam side bearing steel plate 4, a fixedly connected bearing steel plate 5, steel brackets 9 and steel sleeves 6 with the same number as the high-strength bolts 3, wherein a plurality of through holes are uniformly distributed on the beam side bearing steel plate 4 and the fixedly connected bearing steel plate 5, the hole diameter is the inner diameter of the steel sleeve 6, and the inner diameter of the steel sleeve 6 is slightly larger than the diameter of the high-strength bolts. The steel sleeves 6 are arranged between the beam side bearing steel plates 4 and the fixedly connected bearing steel plates 5, are communicated with a plurality of through holes on the two bearing steel plates in a one-to-one correspondence mode and are connected together through welding, the beam side bearing steel plates 4, the through holes on the fixedly connected bearing steel plates 5 and the hollow inner cavity of the steel pipe sleeve 6 form a bolt hole channel of an embedded body, the embedded body is positioned in the reinforced concrete column 2, the outer side end faces of the two bearing steel plates are flush with the cylindrical surface of the reinforced concrete column 2, and the beam side bearing steel plates 4 are positioned on one side, connected with the steel beam 1, of the reinforced concrete column.

The area of the beam side pressure-bearing steel plate 4 is larger than that of the front end plate 7, the steel corbel 9 is welded on the plate surface of the lower end part extending out of the front end plate 7, and the upper end surface of the steel corbel 9 is abutted against the lower end surface of the front end plate 7, so that the steel beam 1 is supported on the steel corbel through the front end plate 7. Thus, after the reinforced concrete column is poured and the maintenance is completed, the steel beam 1 is installed. At this moment, the steel corbel 9 can be used for placing the steel beam 1 to bear the shearing force of the beam end, a temporary supporting structure is not needed, and the construction convenience is improved.

The rear fixing end plate 10 and the front end plate 7 are provided with a plurality of screw holes which are in one-to-one correspondence with the pre-buried body bolt hole passages, and high-strength bolts penetrate through the screw holes and the pre-buried body bolt hole passages on the front end plate 7 and the rear fixing end plate 10 and are exposed at two ends and screwed and fixed to connect the steel beam and the reinforced concrete column. The screw hole groups on the steel beam front end plate 7 are symmetrically distributed on the upper side part and the lower side part of the I-shaped connecting shape, the bolt groups connected with the corresponding embedded body bolt pore passages are also divided into an upper group and a lower group, and the bolt groups are symmetrically distributed around the two transverse parts of the I-shaped connecting shape. Before the high-strength bolt 3 penetrates through the steel sleeve 6, anti-corrosion grease is coated in the range of the sleeve, and the anti-corrosion grease has the functions of preventing the high-strength bolt 3 from being corroded and improving the environmental adaptability of the connection node. Then the high-strength bolt 3 penetrates through the front end plate screw hole, the embedded body bolt pore and the rear fixing end plate screw hole one by one (the front and rear sequence can be adjusted), the nut is screwed after the two ends are exposed, the anti-corrosion grease is sealed in the sleeve, water vapor in the environment is prevented from entering, and the anti-corrosion life of the grease is prolonged. Because the shearing force of the beam end is born by the steel corbel 9 at the moment, the high-strength bolt 3 can freely pass through the sleeve, and the operation is convenient.

The stress and pressure bearing condition of the connecting node comprises the following steps:

when the connecting joint is in a use stage, beam bending moment is borne by the high-strength bolt group, and at the moment, the bolt group is only under tension and is in a one-way stress state, so that the bearing capacity is high. The front end plate 7 and the rear fixed end plate 10 transmit the tension in the bolt to the pressure-bearing steel plates of the corresponding side embedded bodies, the areas of the two pressure-bearing steel plates are larger than those of the end plates, the force is favorably diffused, and the local crushing of the reinforced concrete columns is avoided. The lower surface of the steel beam front end plate 7 is tightly propped against the upper surface of the steel corbel 9, the beam shearing force is directly transmitted to the steel corbel 9 and is transmitted to the front pressure-bearing steel plate by the steel corbel 9, the shearing force is transmitted to the reinforced concrete column by the front pressure-bearing steel plate through a plurality of steel sleeves, and the stress is direct and reliable.

If the steel beam needs to be replaced in the using process, the bolts only need to be unscrewed and are drawn out one by one. If the use function is changed, the change of the beam end bending moment is large, the stress of the original high-strength bolt is not satisfied, the high-strength bolts with different strength grades can be replaced, and the flexibility and the applicability of the connecting joint are greatly improved.

The technical effects of the invention comprise:

1) the problem of traditional rigid connection node atress indefinite is solved, the shear force and the moment of flexure that the girder steel transmitted have steel corbel and pre-buried body to undertake respectively, have avoided the multidirectional atress of bolt, improve the rigidity and the bearing capacity of connected node.

2) The pre-buried body can be prefabricated in a factory and integrally installed in the reinforced concrete column, the on-site pre-buried workload is reduced, the hole aligning precision is improved, and bolts can conveniently and smoothly pass through the pre-buried body.

3) This node is in the use, if meet the condition that needs replacement girder steel, bolt, only need unscrew the bolt and can take out, makes things convenient for the dismouting.

The parts of the invention not described are the same as the prior art.

Claims (5)

1. A detachable connection node of a steel beam and a reinforced concrete column comprises the steel beam, the reinforced concrete column, a plurality of high-strength bolts and a plurality of steel sleeves embedded in the reinforced concrete column, it is characterized by also comprising a beam side pressure-bearing steel plate and a fixedly connected pressure-bearing steel plate, wherein a plurality of through holes are distributed on the beam side pressure-bearing steel plate and the fixedly connected pressure-bearing steel plate, the steel sleeves are arranged between the beam side bearing steel plate and the fixedly connected bearing steel plate, are communicated with the through holes on the two bearing steel plates in a one-to-one correspondence manner and are connected together by welding to form an embedded body, the beam side bearing steel plate, the through holes on the fixedly connected bearing steel plate and the hollow inner cavity of the steel pipe sleeve form a bolt hole channel of the embedded body, the embedded body is positioned in the reinforced concrete column, the outer side end faces of the two bearing steel plates are flush with the cylindrical surface of the reinforced concrete column, and the beam side bearing plate is positioned on one side of the reinforced concrete column connected with the steel beam; the front end plate is fixedly installed on one side, connected with the reinforced concrete column, of the steel beam, a plurality of screw holes in one-to-one correspondence with the through holes in the beam-side pressure-bearing steel plate are formed in the front end plate, the high-strength bolts penetrate through the screw holes in the front end plate and the pre-buried body bolt hole channels, and two ends of the high-strength bolts are exposed and screwed and fixed to connect the steel beam and the reinforced concrete column.

2. The detachable connection node of a steel beam and a reinforced concrete column as claimed in claim 1, further comprising a steel corbel fixedly mounted on the reinforced concrete column below the steel beam front end plate, the steel beam front end plate being against an upper end surface of the steel corbel.

3. The detachable connection joint of a steel beam and a reinforced concrete column as claimed in claim 2, wherein the steel corbel is directly welded and fixed with an embedded part in the reinforced concrete column, or the area of the beam side bearing steel plate is larger than that of the beam side bearing steel plate, and the steel corbel is fixed on the beam side bearing steel plate below the beam side front end plate.

4. The detachable connection node of a steel beam and a reinforced concrete column as claimed in claim 1, wherein the steel beam is of an i-shaped structure, the end side of the steel beam is welded to the front end plate and is in an i-shaped connection shape, and the screw holes on the front end plate of the steel beam corresponding to the bolt holes of the embedded body are distributed at the middle position of the i-shaped connection shape or at the upper side part and the lower side part of the i-shaped connection shape.

5. The detachable joint of steel beam and reinforced concrete column as claimed in claim 1, further comprising a rear fixing end plate having the same structure as the front end plate of steel beam and having a plurality of screw holes corresponding to the holes of the pre-buried body bolts one to one, wherein the rear fixing end plate is located at one side of the fixed connection supporting steel plate and stacked against the fixed connection supporting steel plate, the high strength bolt is inserted into the screw hole of the front end plate, the hole of the pre-buried body bolt and the screw hole of the rear fixing end plate, and both ends of the high strength bolt are exposed and screwed tightly.

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