CN219825843U - Anti-collision steel pipe concrete column structure - Google Patents

Abstract

The utility model discloses an anti-collision steel tube concrete column structure, which belongs to the field of steel tube concrete columns and comprises a concrete column structure, wherein a bent steel long plate comprises a plate body and an adhesion layer arranged on the outer surface of the plate body, and the outer surface of the adhesion layer is provided with an elastic layer.

Description

Anti-collision steel pipe concrete column structure

Technical Field

The utility model relates to a steel tube concrete column, in particular to an anti-collision steel tube concrete column structure.

Background

The steel pipe concrete is a structural member formed by filling concrete into a steel pipe, and the steel pipe and core concrete thereof can bear external load together, and can be classified into round steel pipe concrete, square and rectangular steel pipe concrete, polygonal steel pipe concrete, and the like according to the sectional form. When the existing concrete filled steel tube column is used, the existing concrete filled steel tube column is generally used as a bearing column, but when external impact force is applied, the stability of the concrete filled steel tube column is poor, so that the column is extremely easy to collapse, the stability of an upper structure is influenced, and the use is poor.

Disclosure of Invention

The utility model aims to overcome the defects that in the prior art, when an external impact force is applied, the column body is easy to collapse due to poor stability of a steel tube concrete column, and the stability of a superstructure is influenced.

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

the utility model relates to an anti-collision steel tube concrete column structure, which comprises a concrete column structure, wherein the concrete column structure comprises a steel tube mechanism and a limiting buried piece arranged on the outer surface of the steel tube mechanism, and one ends of the steel tube mechanism and the limiting buried piece are provided with a transverse buried piece;

the steel pipe mechanism comprises a bent steel long plate and a connecting rod arranged at one end of the bent steel long plate, and the connecting rods are arranged at the upper end and the lower end of the bent steel long plate;

the long bent steel plate comprises a plate body and an adhesion layer arranged on the outer surface of the plate body, wherein an elastic layer is arranged on the outer surface of the adhesion layer, and the elastic layer is used for preventing collision.

Preferably, the connecting hole is formed in the outer surface of the connecting rod, the pressing groove is formed in the lower end of the connecting hole and the outer surface of the connecting rod, and the connecting hole is communicated with the pressing groove.

Preferably, an inner sliding plate is slidably arranged among the connecting hole, the pressing groove and the middle through groove, and a compression spring is arranged between the side end of the inner sliding plate and the inner wall of the middle through groove.

Preferably, the cylinder and the pressing block are installed on one side of the inner sliding plate, the cylinder moves in the connecting hole, and the pressing block moves in the pressing groove.

Preferably, the limiting buried piece comprises a bent short plate and a jack arranged on the outer surface of the bent short plate, a threaded hole B is arranged at the top end of the jack, the diameter of the threaded hole B is smaller than that of the jack, and the position of the jack is close to the transverse buried piece.

Preferably, the bending short plates and the bending long plates are all provided with four groups, the four groups of bending short plates are connected end to end and are round, the four groups of bending long plates are connected end to end and are round, and the four groups of bending short plates are arranged on the outer surfaces of the four groups of bending long plates.

Preferably, the transverse buried piece comprises a transverse circular plate and a mounting groove formed in the middle end of the transverse circular plate, a mounting ring is mounted in the mounting groove, a middle connecting rod is arranged at the middle end of the mounting ring, a connecting plate is mounted between the mounting ring and the middle connecting rod, and the position of the connecting plate is aligned with that of the connecting rod.

Preferably, the upper end of the connecting plate is provided with a limiting chute, the top end of the mounting ring is provided with a plug rod at a position which is staggered with the position of the connecting plate, the plug rod is aligned with the position of the jack, the top end of the plug rod is provided with a threaded hole A, and the threaded hole A is aligned with the position of the threaded hole B.

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial effects:

compared with the prior art, the utility model has the following beneficial effects:

(1) According to the anti-collision steel tube concrete column structure, through the arrangement of the elastic layer and the steel tube mechanism, the transverse buried piece, the limiting buried piece and the pouring floor are installed according to the arrangement, the steel tube mechanism supports the floors, when the steel tube mechanism is impacted by external impact force during use, the arranged elastic layer absorbs the impact force, so that the whole concrete column structure is prevented from being damaged, and the anti-collision steel tube concrete column structure is convenient to use;

(2) According to the anti-collision steel pipe concrete column structure, the pressing block is pressed through the arrangement of the cylinder, the compression spring, the inserting rod and the pressing block, the inner sliding plate is driven to move towards the inner side of the bent steel long plate, the compression spring contracts in the middle through groove, the cylinder enters the inside of the connecting hole along with the movement of the inner sliding plate, the connecting rod can be inserted into the inside of the limiting sliding groove, the pressing block is loosened to press, the compression spring pushes the cylinder out of the inside of the connecting hole by means of self restoring force, the cylinder is inserted into the inside of the limiting sliding groove to assemble the position of the steel pipe mechanism, the inserting rod is inserted into the inside of the inserting hole, the bolt is connected in the screw hole A and the screw hole B in a threaded mode, the bent steel long plate and the transverse buried part are installed, the assembly of the concrete column structure is facilitated, and when the external force impacts the steel pipe mechanism, the bent steel long plate moves in the inside of the limiting sliding groove through the connecting rod, the bent steel long plate moves between the two groups of transverse buried parts, and the whole concrete column structure is avoided.

Drawings

FIG. 1 is an overall block diagram of the present utility model;

FIG. 2 is a block diagram of a lateral buried member of the present utility model;

FIG. 3 is a block diagram of a limit burial of the present utility model;

FIG. 4 is a block diagram of a connecting rod of the present utility model;

fig. 5 is a structural view of a bent steel strip according to the present utility model.

In the figure: 1. a concrete column structure; 11. a lateral buried member; 111. a transverse circular plate; 112. a mounting groove; 113. a mounting ring; 114. a connecting plate; 115. limiting sliding grooves; 116. a middle connecting rod; 117. a rod; 118. a threaded hole A; 12. limiting the buried piece; 121. bending and connecting a short plate; 122. a jack; 123. a threaded hole B; 13. a steel pipe mechanism; 131. bending a steel long plate; 1311. a plate body; 1312. an adhesion layer; 1313. an elastic layer; 132. a connecting rod; 133. a connection hole; 134. a pressing groove; 135. a middle through groove; 136. an inner slide plate; 137. a compression spring; 138. a cylinder; 139. pressing the blocks.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings.

Referring to fig. 1, an anti-collision concrete filled steel tube column structure comprises a concrete column structure 1, wherein the concrete column structure 1 comprises a steel tube mechanism 13 and a limiting buried piece 12 arranged on the outer surface of the steel tube mechanism 13, and one end of the steel tube mechanism 13 and one end of the limiting buried piece 12 are provided with a transverse buried piece 11.

The utility model is further described below with reference to examples.

Embodiment one:

referring to fig. 4 and 5, the steel pipe mechanism 13 includes a curved long plate 131 and a connecting rod 132 mounted at one end of the curved long plate 131, and the connecting rod 132 is mounted at both the upper end and the lower end of the curved long plate 131, the curved long plate 131 includes a plate body 1311 and an adhesion layer 1312 disposed on the outer surface of the plate body 1311, an elastic layer 1313 is disposed on the outer surface of the adhesion layer 1312, and the disposed elastic layer 1313 is used for anti-collision.

In this embodiment: the horizontal buried piece 11 and the spacing buried piece 12 are installed according to the installation with pouring the floor, and steel pipe mechanism 13 supports between the floor, and when using, when external impact force striking steel pipe mechanism 13, the elastic layer 1313 that sets up will absorb impact force, avoids concrete column structure 1 whole to be destroyed, facilitates the use.

Embodiment two:

referring to fig. 2 to 4, the outer surface of the connecting rod 132 is provided with a connection hole 133, the lower end of the connection hole 133 is provided with a pressing groove 134 on the outer surface of the connecting rod 132, the connection hole 133 is partially communicated with the pressing groove 134, an inner slide plate 136 is slidably mounted among the connection hole 133, the pressing groove 134 and the middle through groove 135, a compression spring 137 is mounted between the side end of the inner slide plate 136 and the inner wall of the middle through groove 135, one side of the inner slide plate 136 is provided with a cylinder 138 and a pressing block 139, the cylinder 138 moves in the connection hole 133, the pressing block 139 moves in the pressing groove 134, the limit burying member 12 comprises a bent short plate 121 and a jack 122 arranged on the outer surface of the bent short plate 121, a threaded hole B123 is formed at the top end of the jack 122, the diameter of the threaded hole B123 is smaller than the diameter of the jack 122, the position of the jack 122 is close to the transverse burying member 11, the four groups of bent short plates 121 and four groups of bent long plates 131 are all provided with four groups of bent short plates 121 which are connected end to end and are round, the four groups of bent long plates 131 are connected end to end and are round, the four groups of bent short plates 121 are arranged on the outer surfaces of the four groups of bent long plates 131, the transverse buried part 11 comprises a transverse circular plate 111 and a mounting groove 112 which is arranged at the middle end of the transverse circular plate 111, a mounting ring 113 is arranged in the mounting groove 112, a middle connecting rod 116 is arranged at the middle end of the mounting ring 113, a connecting plate 114 is arranged between the mounting ring 113 and the middle connecting rod 116, the position of the connecting plate 114 is aligned with the position of the connecting rod 132, a limit chute 115 is arranged at the upper end of the connecting plate 114, a plug rod 117 is arranged at the position of the top end of the mounting ring 113 and staggered with the position of the connecting plate 114, a threaded hole A118 is arranged at the top end of the plug rod 117, and the threaded hole a118 is aligned with the position of the threaded hole B123.

In this embodiment: pressing the pressing block 139 to drive the inner sliding plate 136 to move towards the inner side of the bent steel long plate 131, compressing the spring 137 to shrink inside the through groove 135, enabling the cylinder 138 to enter the inside of the connecting hole 133 along with the movement of the inner sliding plate 136, enabling the connecting rod 132 to be inserted into the inside of the limiting sliding groove 115, releasing the pressing of the pressing block 139, enabling the compressing spring 137 to push the cylinder 138 out of the inside of the connecting hole 133 by means of self restoring force, enabling the cylinder 138 to be inserted into the inside of the limiting sliding groove 115, assembling the position of the steel pipe mechanism 13, enabling the inserting rod 117 to be inserted into the jack 122, enabling the inserting rod 117 to be connected into the inside of the threaded hole A118 and the threaded hole B123 through bolts in a threaded mode, completing the installation of the bent steel long plate 121 and the transverse buried piece 11, facilitating the assembly of the concrete column structure 1, enabling the bent steel long plate 131 to move inside the limiting sliding groove 115 through the connecting rod 132 when external force impacts the steel pipe mechanism 13, enabling the bent steel long plate 131 to move between two groups of the transverse buried piece 11, and avoiding the whole collapse of the concrete column structure 1.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An anti-collision steel pipe concrete column structure, includes concrete column structure (1), its characterized in that: the concrete column structure (1) comprises a steel tube mechanism (13) and a limit buried piece (12) arranged on the outer surface of the steel tube mechanism (13), and one end of the steel tube mechanism (13) and one end of the limit buried piece (12) are provided with a transverse buried piece (11);

the steel pipe mechanism (13) comprises a bent steel long plate (131) and a connecting rod (132) arranged at one end of the bent steel long plate (131), and the connecting rod (132) is arranged at the upper end and the lower end of the bent steel long plate (131);

the bending steel long plate (131) comprises a plate body (1311) and an adhesion layer (1312) arranged on the outer surface of the plate body (1311), an elastic layer (1313) is arranged on the outer surface of the adhesion layer (1312), and the elastic layer (1313) is used for preventing collision.

2. The concrete filled steel tubular column structure according to claim 1, wherein: the connecting rod is characterized in that a connecting hole (133) is formed in the outer surface of the connecting rod (132), a pressing groove (134) is formed in the lower end of the connecting hole (133) and in the outer surface of the connecting rod (132), and the connecting hole (133) is partially communicated with the pressing groove (134).

3. An anti-collision concrete filled steel tubular column structure according to claim 2, wherein: an inner sliding plate (136) is slidably arranged among the connecting hole (133), the pressing groove (134) and the middle through groove (135), and a compression spring (137) is arranged between the side end of the inner sliding plate (136) and the inner wall of the middle through groove (135).

4. A concrete filled steel tubular column structure according to claim 3, wherein: a cylinder (138) and a pressing block (139) are mounted on one side of the inner slide plate (136), the cylinder (138) moves in the connecting hole (133), and the pressing block (139) moves in the pressing groove (134).

5. The concrete filled steel tubular column structure according to claim 1, wherein: the limiting buried part (12) comprises a bent short plate (121) and a jack (122) arranged on the outer surface of the bent short plate (121), a threaded hole B (123) is formed in the top end of the jack (122), the diameter of the threaded hole B (123) is smaller than that of the jack (122), and the position of the jack (122) is close to the transverse buried part (11).

6. An anti-collision concrete filled steel tubular column structure according to claim 5, wherein: the bending short plates (121) and the bending long plates (131) are all provided with four groups, the four groups of bending short plates (121) are connected end to end and are round, the four groups of bending long plates (131) are connected end to end and are round, and the four groups of bending short plates (121) are arranged on the outer surfaces of the four groups of bending long plates (131).

7. The concrete filled steel tubular column structure according to claim 1, wherein: the transverse buried part (11) comprises a transverse circular plate (111) and a mounting groove (112) formed in the middle end of the transverse circular plate (111), a mounting ring (113) is mounted in the mounting groove (112), a middle connecting rod (116) is arranged at the middle end of the mounting ring (113), a connecting plate (114) is mounted between the mounting ring (113) and the middle connecting rod (116), and the position where the connecting plate (114) is arranged is aligned with the position of the connecting rod (132).

8. An anti-collision concrete filled steel tubular column structure according to claim 7, wherein: limiting sliding grooves (115) are formed in the upper end of the connecting plate (114), inserting rods (117) are arranged at the top ends of the mounting rings (113) and are staggered with the connecting plate (114), the inserting rods (117) are aligned with the inserting holes (122), threaded holes A (118) are formed in the top ends of the inserting rods (117), and the threaded holes A (118) are aligned with the threaded holes B (123).