CN215624466U - Three-dimensional warehouse system - Google Patents

Abstract

A three-dimensional warehouse system comprises upright posts (2), bracket frames (4) and bracket beams (3), wherein the bracket frames (4) are fixed on the upright posts (2), and the bracket frames (4) on the same side are connected into a whole by the bracket beams (3). The main body of the bracket beam (3) is a channel steel, end sealing plates (3.1) are welded at two ends of the channel steel, and holes for connecting the bracket frame (4) through bolts are formed in the end sealing plates (3.1); a limiting angle steel is arranged above the middle of the channel steel and consists of two sections of angle steels (3.2), and a limiting plate (3.3) is welded at the end part of the angle steel to limit the position of the mandrel; the two sections of angle steel have guiding centering property when storing cylindrical materials (1). Channel steel is welded on two sides of the hanging piece (4.1) of the bracket frame, and a rib plate (4.2) is welded below the channel steel; the end part of the channel steel is provided with a hole for fixing the bracket beam (3); the hanging piece (4.1) is fixedly connected with the upright post (2). The utility model has simple structure, convenient installation, reasonable bearing structure and lower manufacturing cost; can be better implemented at a demand end.

Description

Three-dimensional warehouse system

Technical Field

The utility model belongs to the technical field of three-dimensional logistics storage, and relates to a three-dimensional warehouse system suitable for cylindrical cored materials to be suspended and stored.

Background

In many enterprises producing cylindrical materials, some materials have high requirements on the surface. Such as: the outer cylindrical surface is not allowed to withstand the pressure. In order to improve the space utilization rate, enterprises can store the cylindrical cored materials in a three-dimensional space. For example, a certain enterprise needs to store the sized roll material due to the sizing process, the glue is not completely dried out after the sizing process, and the final product cannot bear excessive surface pressure. Therefore, when the mandrel is circulated in a factory, the mandrel is conveyed and transported in the whole process.

Using a conventional welded-in-one pallet (see fig. 1), the center of gravity of the cylindrical cored material would be outside the welded pallet. Particularly, after the material on one side is taken away, the center of gravity shifts due to the uneven number of the shelf materials on the two sides, and an overturning moment is generated. Therefore, the welded goods shelf needs to be lengthened at the bottom so as to provide balance moment. The welded type integrated goods shelf is heavy and troublesome to transport. The welding process error is relatively large. The defects lead to the difficulty in installation and field adjustment of the welding type integrated shelf system.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a three-dimensional warehouse system suitable for cylindrical cored materials to be suspended and stored, which has the advantages of simple structure, convenient installation, reasonable bearing structure and lower manufacturing cost; can be better implemented at a demand end.

The technical scheme of the utility model is as follows:

a three-dimensional warehouse system comprises upright posts, bracket racks and bracket beams, wherein the bracket racks are fixed on the upright posts, and the bracket racks on the same side are connected into a whole by the bracket beams.

Furthermore, the bracket beam main body is a channel steel, end sealing plates are welded at two ends of the channel steel, and holes are formed in the end sealing plates and used for connecting the bracket frame through bolts; and a limiting angle steel is arranged above the middle of the channel steel. The limiting angle steel consists of two sections of angle steel, the limiting plate is welded at the end part of the angle steel, and the position of the mandrel is limited; the two sections of angle steel have guiding centering property when storing cylindrical materials.

Furthermore, channel steel is welded on the two sides of the hanging piece through the bracket frame, and a rib plate is welded below the channel steel. The end of the channel steel is provided with a hole for fixing the bracket beam. The hanging piece is fixedly connected with the upright post.

The arrangement of the goods shelf upright posts can be adjusted according to the height of the cylindrical cored material. The length of the corbel beam may be determined by the range of diameter dimensions of the cylindrical material. The hanging storage three-dimensional warehouse system is convenient for realizing the standardized type selection of the goods shelf.

The utility model relates to a three-dimensional warehouse system for suspension storage of cylindrical materials with cores, wherein a combined assembly type bracket shelf is adopted for storing cylindrical materials, the cylindrical materials are approximately rigid materials, after a core rod is penetrated through the cylindrical materials, two ends of the cylindrical materials are respectively placed on bracket beams at two sides, the gravity center of the cylindrical materials is arranged inside a vertical column of the shelf, and the shelf is reasonable in integral bearing. Therefore, the structure is simple, the installation is convenient, the bearing structure is reasonable, and the manufacturing cost is lower; can be better implemented at a demand end.

Drawings

Fig. 1 is a side elevational view of a conventional welded-on integrated pallet.

FIG. 2 is a schematic view of a stereoscopic library system of the present invention.

Fig. 3 is a side elevational view of the modular corbel shelf.

Fig. 4 is an elevation view of a combination fabricated corbel shelf.

Fig. 5 is a top view of the modular corbel shelf.

Fig. 6 is a schematic view of a corbel beam.

Fig. 7 is a schematic view of a corbel frame.

In the figure: 1-cylindrical cored material, 2-upright post, 3-bracket beam, 3.1-end sealing plate, 3.2-angle steel piece, 3.3-limiting plate, 4-bracket frame, 4.1-hanging piece and 4.2-rib plate.

Detailed Description

The utility model is further described with reference to the accompanying drawings and embodiments.

Referring to fig. 2 and 3: a three-dimensional warehouse system comprises upright posts (2), a bracket rack (4) and a bracket beam (3). The bracket rack (4) is fixed on the upright post (2), and the bracket beam (3) connects the bracket rack (4) on the same side into a whole.

Referring to fig. 6 and 7: two ends of the cylindrical core-belt material (1) are respectively placed on the bracket beams (3) at two sides, the bracket beams (3) are fixed with bracket frames (4) through bolts, and the bracket frames (4) are hung on the upright posts (2). The diameter of the cylindrical belt core material to be stored is 1200mm, and the breadth is 1760 mm; the diameter of the core rod is 89mm, and the width of the core rod is 2180. The maximum weight of a single piece of material is 2.5 tons (including the core rod). The main body of the bracket beam (3) is a channel steel, the two ends of the channel steel are welded with end sealing plates (3.1), and holes for connecting the bracket frame (4) by bolts are arranged on the end sealing plates (3.1); and a limiting angle steel is arranged above the middle of the channel steel. The limiting angle steel consists of two sections of angle steel (3.2), and the limiting plate (3.3) is welded at the end part of the angle steel to limit the position of the mandrel; the two sections of angle steel have certain guiding and centering performance when storing cylindrical materials (1). Channel steel is welded on two sides of the hanging piece (4.1) of the bracket frame, and a rib plate (4.2) is welded below the channel steel. The end part of the channel steel is provided with a hole for fixing the bracket beam (3). The hanging piece (4.1) is fixedly connected with the upright post (2).

Referring to fig. 4: the space between the upright columns of the goods shelf is 2390mm, the space between the upper bracket and the lower bracket takes 1575mm, and the length of the channel steel of the bracket frame is 1860 mm. According to the implementation, a cylindrical core material three-dimensional warehouse with the storage diameter of 800-.

With reference to fig. 4 and 5: the arrangement of the shelf upright posts (2) can be adjusted according to the height of the cylindrical cored material. The length of the bracket beam (3) can be determined by the diameter size range of the cylindrical material. The hanging storage three-dimensional warehouse system is convenient for realizing the standardized type selection of the goods shelf.

Claims (1)

1. The utility model provides a three-dimensional storehouse system, includes stand (2), bracket frame (4), bracket roof beam (3), its characterized in that: the bracket rack (4) is fixed on the upright post (2), and the bracket rack (4) on the same side is connected into a whole by the bracket beam (3); the bracket beam (3) is characterized in that the main body of the bracket beam is a channel steel, end sealing plates (3.1) are welded at two ends of the channel steel, holes are formed in the end sealing plates (3.1) and used for connecting a bracket frame (4) through bolts, a limiting angle steel is arranged above the middle of the channel steel and consists of two sections of angle steels (3.2), and a limiting plate (3.3) is welded at the end part of each angle steel to limit the position of a mandrel; channel steel is welded on two sides of the hanging piece (4.1) of the bracket frame, and a rib plate (4.2) is welded below the channel steel; the end part of the channel steel is provided with a hole for fixing the bracket beam (3); the hanging piece (4.1) is fixedly connected with the upright post (2).

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