CN219237701U - Assembled steel classification placer - Google Patents

Abstract

The utility model relates to the technical field of steel structure engineering, in particular to an assembled steel classification placement device, which comprises a bottom frame structure and a plurality of rows of separation upright post structures, wherein the plurality of rows of separation upright post structures are arranged at intervals along the horizontal transverse direction of the bottom frame structure, and placement cavities are arranged between adjacent separation upright post structures; the steel of different kinds, different diameters are placed respectively in one and are placed the chamber, have realized the categorised management of steel, be convenient for steel management and use to the steel is placed on bottom frame construction, has avoided steel direct and ground direct contact, reduces the steel and wets rusty possibility. Still further, the bottom frame structure and the separation upright post structure are detachably connected through the first connecting bolts, and the assembly device is assembled in a steel structure processing plant or a construction site, so that the assembly and disassembly are convenient, and the large-scale use is facilitated.

Description

Assembled steel classification placer

Technical Field

The utility model relates to the technical field of steel structure engineering, in particular to an assembled steel classification placing device.

Background

In the technical field of steel construction engineering, a large number of steel products of different types and different diameters are required to be used in a steel structure processing plant or a construction site. At present, the steels are basically directly piled on the ground, so that the steels are easy to wet and rust, and the steels with different types and diameters are mixed together, so that the steels are difficult to take and use, and serious inconvenience is brought to the management and use of the steels.

Disclosure of Invention

The utility model solves the technical problem of providing an assembled steel classification placement device which is convenient for steel management and use.

The technical scheme adopted for solving the technical problems is as follows: the assembled steel classification placing device comprises a bottom frame structure and a plurality of rows of separation upright post structures, wherein the plurality of rows of separation upright post structures are arranged at intervals along the horizontal transverse direction of the bottom frame structure, and placing cavities are arranged between adjacent separation upright post structures;

the multi-row separation upright post structure comprises a plurality of upright posts, the plurality of upright posts are arranged at intervals along the horizontal longitudinal direction of the bottom frame structure, the upright posts comprise columns and connecting bottom plates, the columns are arranged on the connecting bottom plates, and the connecting bottom plates are detachably arranged on the bottom frame structure through first connecting bolts.

Further, the bottom frame structure comprises two horizontal longitudinal beams and three horizontal cross beams, wherein the two horizontal longitudinal beams are arranged in parallel, the three horizontal cross beams are arranged in parallel, the two horizontal longitudinal beams are arranged in the horizontal longitudinal direction, the horizontal cross beams are arranged in the horizontal transverse direction, the horizontal longitudinal beams are respectively positioned at two ends of the horizontal cross beams, and the horizontal longitudinal beams are arranged vertically to the horizontal cross beams;

be provided with first connecting plate on the horizontal longitudinal beam, first connecting plate passes through second connecting bolt and horizontal cross beam and can dismantle the connection.

Further, the horizontal longitudinal beam and the horizontal transverse beam are both I-steel.

Further, the first connecting plate is arranged on the web plate of the horizontal longitudinal beam, and a first reinforcing plate is arranged in the horizontal longitudinal beam.

Further, all the separation upright post structures are arranged in parallel, and all the upright posts are arranged in parallel.

Further, a second reinforcing plate is arranged in the horizontal cross beam.

Further, the second reinforcing plate is arranged at the joint of the connecting bottom plate and the bottom frame structure.

Further, the cylinder is hollow structure, still includes the polylith shrouding, and the shrouding can be dismantled and set up in the upper end of cylinder.

Further, the device also comprises a plurality of longitudinal upper cross beams, wherein the longitudinal upper cross beams are arranged right above the horizontal longitudinal beams along the horizontal longitudinal direction;

the upper ends of the upright posts positioned on two sides of the bottom frame structure are provided with second connecting plates, and a longitudinal upper cross beam and the second connecting plates are detachably arranged between the two upright posts through third connecting bolts.

The beneficial effects of the utility model are as follows: the utility model relates to an assembled steel classification placement device, which comprises a bottom frame structure and a plurality of rows of separation upright post structures, wherein the plurality of rows of separation upright post structures are arranged at intervals along the horizontal transverse direction of the bottom frame structure, and placement cavities are arranged between adjacent separation upright post structures; the steel of different kinds, different diameters are placed respectively in one and are placed the chamber, have realized the categorised management of steel, be convenient for steel management and use to the steel is placed on bottom frame construction, has avoided steel direct and ground direct contact, reduces the steel and wets rusty possibility. Still further, the bottom frame structure and the separation upright post structure are detachably connected through the first connecting bolts, and the assembly device is assembled in a steel structure processing plant or a construction site, so that the assembly and disassembly are convenient, and the large-scale use is facilitated.

Drawings

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

FIG. 2 is a schematic side elevational view of the present utility model;

FIG. 3 is a schematic cross-sectional view of A-A of FIG. 1;

FIG. 4 is a schematic illustration of the utility model in use;

the marking is as follows: the bottom frame structure 1, the horizontal longitudinal beams 11, the horizontal cross beams 12, the first connecting plates 13, the first reinforcing plates 14, the second reinforcing plates 15, the separation column structure 2, the columns 21, the columns 211, the connecting bottom plates 212, the placing cavities 3, the sealing plates 4, the longitudinal upper cross beams 5 and the second connecting plates 6.

Detailed Description

The utility model is further described below with reference to the drawings and the detailed description.

The following references to orientations are based on the orientation in which the components of fig. 1 are located.

As shown in fig. 1, 2 and 3, the assembled steel classification and placement device comprises a bottom frame structure 1 and a plurality of rows of separation upright post structures 2, wherein the plurality of rows of separation upright post structures 2 are arranged at intervals along the horizontal transverse direction of the bottom frame structure 1, and placement cavities 3 are arranged between adjacent separation upright post structures 2;

the multi-row separation column structure 2 comprises a plurality of columns 21, the columns 21 are arranged at intervals along the horizontal longitudinal direction of the bottom frame structure 1, the columns 21 comprise columns 211 and a connecting bottom plate 212, the columns 211 are arranged on the connecting bottom plate 212, and the connecting bottom plate 212 is detachably arranged on the bottom frame structure 1 through a first connecting bolt.

Herein, the horizontal transverse direction and the horizontal longitudinal direction are similar to the X-axis and the Y-axis in the coordinate system, the horizontal transverse direction corresponds to the X-axis, the horizontal longitudinal direction corresponds to the Y-axis, and the column 21 corresponds to the Z-axis.

When the steel plate type moisture-proof rust-proof steel plate is used, steel plates of different types and different diameters are respectively placed in the placement cavity 3, as shown in fig. 4, classification management of the steel plates is achieved, steel plates are convenient to manage and use, the steel plates are placed on the bottom frame structure 1, direct contact of the steel plates with the ground is avoided, and the possibility that the steel plates rust due to moisture is reduced. And, bottom frame construction 1 and separate stand structure 2 can dismantle through first connecting bolt and connect, assemble the device at steel construction processing factory or job site, conveniently transport, assemble and dismantle, do benefit to large-scale use.

The bottom frame structure 1 mainly plays a supporting role, and in order to ensure the use effect of the bottom frame structure 1, a preferred structure of the bottom frame structure 1 is as follows: as shown in fig. 1, the bottom frame structure 1 includes two horizontal longitudinal beams 11 and three horizontal cross beams 12, the two horizontal longitudinal beams 11 are parallel to each other, the three horizontal cross beams 12 are parallel to each other, the two horizontal longitudinal beams 11 are arranged in the horizontal longitudinal direction, the horizontal cross beams 12 are arranged in the horizontal transverse direction, the horizontal longitudinal beams 11 are respectively positioned at two ends of the horizontal cross beams 12, the horizontal longitudinal beams 11 are perpendicular to the horizontal cross beams 12, a first connecting plate 13 is arranged on the horizontal longitudinal beams 11, and the first connecting plate 13 is detachably connected with the horizontal cross beams 12 through a second connecting bolt. The horizontal longitudinal beam 11 and the horizontal transverse beam 12 are detachably connected through the first connecting plate 13 and the second connecting bolt, so that the bottom frame structure 1 is assembled in a steel structure processing plant or a construction site, and transportation, assembly and disassembly are convenient.

The horizontal stringers 11 and the horizontal cross beams 12 are preferably each i-steel, and the first connecting plates 13 are provided on the web of the horizontal stringers 11. In order to improve the supporting strength of the horizontal longitudinal beam 11, a first reinforcing plate 14 is provided in the horizontal longitudinal beam 11, the first reinforcing plate 14 being provided between the upper wing plate and the lower wing plate of the horizontal longitudinal beam 11.

In order to facilitate the placement of the steel, all the separating column structures 2 are arranged parallel to each other and all the columns 21 are arranged parallel to each other.

In order to improve the supporting strength of the horizontal beam 12, a second reinforcing plate 15 is provided in the horizontal beam 12. Still further, as also shown in fig. 1, the second reinforcing plate 15 is preferably provided at the junction of the connection base plate 212 and the bottom frame structure 1.

The column 211 mainly has a separation function, so that the weight of the column 211 is not excessively heavy, the column 211 is preferably hollow, and in order to prevent impurities such as dust from falling into the column 211, as shown in fig. 1, a plurality of sealing plates 4 are further arranged, and the sealing plates 4 are detachably arranged at the upper end of the column 211.

In order to further improve the overall strength of the assembled steel classification placement device, as shown in fig. 2, the assembled steel classification placement device is further provided with a plurality of longitudinal upper cross beams 5, wherein the longitudinal upper cross beams 5 are arranged right above the horizontal longitudinal beams 11 along the horizontal longitudinal direction; the upper ends of the upright posts 21 positioned on two sides of the bottom frame structure 1 are provided with second connecting plates 6, and a longitudinal upper cross beam 5 and the second connecting plates 6 are detachably arranged between the two upright posts 21 through third connecting bolts.

Claims (9)

1. Assembled steel classification placer, its characterized in that: the structure comprises a bottom frame structure (1) and a plurality of rows of separation upright post structures (2), wherein the rows of separation upright post structures (2) are arranged at intervals along the horizontal transverse direction of the bottom frame structure (1), and a placing cavity (3) is arranged between every two adjacent separation upright post structures (2);

the multi-row separation upright post structure (2) comprises a plurality of upright posts (21), the upright posts (21) are arranged at intervals along the horizontal longitudinal direction of the bottom frame structure (1), each upright post (21) comprises a column body (211) and a connecting bottom plate (212), the column bodies (211) are arranged on the connecting bottom plates (212), and the connecting bottom plates (212) are detachably arranged on the bottom frame structure (1) through first connecting bolts.

2. The fabricated steel sort placement device of claim 1, wherein: the bottom frame structure (1) comprises two horizontal longitudinal beams (11) and three horizontal cross beams (12), wherein the two horizontal longitudinal beams (11) are arranged in parallel, the three horizontal cross beams (12) are arranged in parallel, the two horizontal longitudinal beams (11) are arranged in the horizontal longitudinal direction, the horizontal cross beams (12) are arranged in the horizontal transverse direction, the horizontal longitudinal beams (11) are respectively positioned at two ends of the horizontal cross beams (12), and the horizontal longitudinal beams (11) are arranged perpendicular to the horizontal cross beams (12);

the horizontal longitudinal beam (11) is provided with a first connecting plate (13), and the first connecting plate (13) is detachably connected with the horizontal cross beam (12) through a second connecting bolt.

3. The fabricated steel sort placement device of claim 2, wherein: the horizontal longitudinal beam (11) and the horizontal transverse beam (12) are both I-shaped steel.

4. The fabricated steel sort placement device of claim 3, wherein: the first connecting plate (13) is arranged on the web plate of the horizontal longitudinal beam (11), and a first reinforcing plate (14) is arranged in the horizontal longitudinal beam (11).

5. The fabricated steel sort placement device of claim 1, wherein: all the separation upright post structures (2) are arranged in parallel, and all the upright posts (21) are arranged in parallel.

6. The fabricated steel sort placement device of claim 3, wherein: a second reinforcing plate (15) is arranged in the horizontal cross beam (12).

7. The fabricated steel sort placement device of claim 6, wherein: the second reinforcing plate (15) is arranged at the connection position of the connecting bottom plate (212) and the bottom frame structure (1).

8. The fabricated steel material classification placement device according to any one of claims 1 to 7, wherein: the cylinder (211) is of a hollow structure and further comprises a plurality of sealing plates (4), and the sealing plates (4) are detachably arranged at the upper end of the cylinder (211).

9. The fabricated steel sort placement device of claim 2, wherein: the device also comprises a plurality of longitudinal upper cross beams (5), wherein the longitudinal upper cross beams (5) are arranged right above the horizontal longitudinal beams (11) along the horizontal longitudinal direction;

the upper ends of the upright posts (21) positioned on two sides of the bottom frame structure (1) are provided with second connecting plates (6), and a longitudinal upper cross beam (5) and the second connecting plates (6) are detachably arranged between the two upright posts (21) through third connecting bolts.

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