CN210823588U - Storage device for slender metal components - Google Patents

Abstract

A storage unit for elongated metal members, comprising: the auxiliary beam component comprises a main beam component, a first auxiliary beam component, a second auxiliary beam component, a third auxiliary beam component, a fourth auxiliary beam component, a lacing wire system, a supporting beam device, an angle plate connecting plate and a safety protection device; the main beam assembly and the first auxiliary beam assembly, the first auxiliary beam assembly and the second auxiliary beam assembly, the second auxiliary beam assembly and the third auxiliary beam assembly are sequentially connected and installed together through a lacing wire system, and at least two layers of supporting cross beam devices are symmetrically and uniformly installed on two sides of the main beam assembly, the first auxiliary beam assembly, the second auxiliary beam assembly, the third auxiliary beam assembly and the fourth auxiliary beam assembly respectively. The device has compact structure, convenient processing and simple manufacturing method. The manufacturing method adopts the processing of flexible equipment such as laser cutting, numerical control bending, robot welding and the like which are popular in the sheet metal industry, and has the advantages of convenience in processing, short period and the like.

Description

Storage device for slender metal components

Technical Field

The utility model belongs to the field of machine-building, a strorage device of slim type metal component is related to.

Background

At present, in the mechanical manufacturing industry, the frame type metal component is widely applied due to the advantages of smooth modeling, rigid structure and the like. For example, in automobiles and agricultural machines, frame-type cab frames are frequently used. Frame type driver's cabin skeleton mainly closes piece, right side wall by the left side wall and closes piece, bottom plate and closes piece, top skeleton, and preceding closes the piece, and six major component partial shipment concatenation assembly welding of piece are closed to the back, and every partial shipment closes piece by forming pipe fitting and stamping workpiece concatenation assembly welding. The formed pipe fitting is formed by processing cold-bent hollow metal members with various specifications and sections through a plurality of procedures and then is used for welding and assembling. Before the forming pipe fitting is processed and formed, in order to achieve the maximum material utilization, the forming pipe fitting is generally purchased according to the purchasing length which is the integral multiple of the using length, the section size and the length size of the forming pipe fitting are greatly different and are slender metal members, and the slender metal members are usually packed by square binding materials for convenient transportation and storage.

In the prior art, the storage modes of slender metal components in the manufacturing industry can be divided into four types:

the first is stacking without an interlayer layer, and no process device is adopted for storing and protecting metal components, the method is simple and has low cost, but the method often causes that stock is not produced, new goods are stacked on the stock, or the materials are frequently poured up and down due to use in production, the operation difficulty coefficient is high, and the first-in first-out management of the materials is difficult to realize;

the second is a process device adopting metal component welding, which is not detachable, and is stored in two or three layers, and the cost is lower. The support rods for storing the metal components are divided into a parallel type and a step type, the metal components stored in the two modes are all discrete parts, the step type access is more convenient than the parallel type access, but the occupied space is increased, so that the space utilization rate of the accessed materials is reduced, and the storage capacity is reduced;

the third is a process device for multilayer three-dimensional storage, which is matched with a special forklift to store and take materials, the storage capacity is greatly reduced due to the large occupied area of forklift operation logistics, the process device is used in a single-group single-row arrangement mode and cannot be scaled, and in addition, equipment manufactured by the process device parts in the form needs to be put into special cold bending equipment, pressing and welding equipment and the like, so that the manufacturing rigidity requirement is high, and the flexible design and processing cannot be met;

the fourth process device is also a multilayer three-dimensional storage process device which can be developed upwards according to the use environment and is matched with a stacker to automatically store and take materials, and a numerical control operation mode is adopted. The process device is customized and specially designed, although the utilization rate of the space area reaches the maximum and the storage capacity is the maximum, the early investment cost is high, and the process device is suitable for the production requirement with high storage and export frequency and is not suitable for the production and manufacturing enterprises in the agricultural machinery industry.

Therefore, it is necessary to provide a compact, easily manufactured device suitable for storing elongated metal members.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a compact structure, processing convenience, be suitable for the device that slim type metal component deposited.

The utility model adopts the following technical scheme:

a storage unit for elongated metal members, comprising: the auxiliary beam component comprises a main beam component, a first auxiliary beam component, a second auxiliary beam component, a third auxiliary beam component, a fourth auxiliary beam component, a lacing wire system, a supporting beam device, an angle plate connecting plate and a safety protection device; the main beam assembly and the first auxiliary beam assembly, the first auxiliary beam assembly and the second auxiliary beam assembly, the second auxiliary beam assembly and the third auxiliary beam assembly are sequentially connected and installed together through a lacing wire system, and at least two layers of supporting cross beam devices are symmetrically and uniformly installed on two sides of the main beam assembly, the first auxiliary beam assembly, the second auxiliary beam assembly, the third auxiliary beam assembly and the fourth auxiliary beam assembly respectively.

The main beam component comprises: the upright post assembly and the base assembly; the upright post assembly comprises upright posts, a base connecting plate and a flat plate piece; the upright post is vertically and fixedly connected on the base connecting plate; the base connecting plate is a U-shaped piece, and flat pieces with the same thickness are welded at the mounting hole part of the U-shaped piece; the base closes the piece and includes: the device comprises a main body base, a base baffle plate and a mounting bottom plate; the main part base is the I-shaped metal component, has the base baffle in the welding of main part base both ends head, closes on the welding of both ends base baffle and has the mounting plate, and the stand closes the piece and passes through bolted connection on the piece is closed to the base.

The lacing wire system comprises: the horizontal tie bars are shorter than the diagonal tie bars; the horizontal lacing wire, the diagonal draw bar and the stand close the scute connecting plate of installation on the piece and be connected, use stud to pass girder subassembly, first auxiliary girder subassembly, second auxiliary girder subassembly, third auxiliary girder subassembly, the stand of fourth auxiliary girder subassembly closes piece and scute connecting plate respectively during the connection, and locking gasket and lock nut fastening are passed through at both ends.

The supporting beam device comprises: the supporting beam, the baffle plate and the U-shaped connecting plate are arranged on the supporting beam; the supporting beam adopts two U types to bend a welding, the small cross section end of the supporting beam is additionally welded with a baffle, the large cross section end of the supporting beam is welded with the U-shaped connecting plate, the welded supporting beam device is connected with a safety pin plate and a cotter pin through the U-shaped connecting plate and a stand column assembly of the main beam assembly to form a safety protection device, and the safety pin plate is inserted in a connecting long hole of the stand column and the U-shaped connecting plate.

The utility model adopts the above technical scheme can reach following beneficial effect afterwards: the device has compact structure, convenient processing, simple manufacturing method and suitability for storing slender metal components.

The parts are universal parts, and are manufactured without special process equipment, the manufacturing method adopts the processing of flexible equipment such as laser cutting, numerical control bending, robot welding and the like which are popular in the sheet metal industry, and the method has the advantages of low manufacturing cost, convenience in processing, short period and the like. Effectively solves the problems existing in the prior art.

Drawings

Fig. 1 is a schematic perspective view of a storage device for slender metal members according to the present invention;

fig. 2 is a front view of the storage device for slender metal members according to the present invention;

FIG. 3 is a left side view of the structure of FIG. 2;

fig. 4 is a schematic structural view of a main beam of the storage device for slender metal members according to the present invention;

FIG. 5 is a schematic top view of the structure of FIG. 4;

fig. 6 is a schematic structural view of a supporting beam device of the storage device for slender metal members according to the present invention;

fig. 7 is a schematic view of the storage device for slender metal members according to the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings and examples. As shown in FIGS. 1-7: a storage unit for elongated metal members, comprising: the main beam assembly 1, the first auxiliary beam assembly 2, the second auxiliary beam assembly 3, the third auxiliary beam assembly 4, the fourth auxiliary beam assembly 5, the lacing wire system 6, the supporting beam device 7, the angle plate connecting plate 8 and the safety protection device 9. Girder subassembly 1 and first auxiliary girder subassembly 2, first auxiliary girder subassembly 2 and second auxiliary girder subassembly 3, second auxiliary girder subassembly 3 and third auxiliary girder subassembly 4, third auxiliary girder subassembly 4 and fourth auxiliary girder subassembly 5 all are in the same place through lacing wire system 6 connection, supporting beam device 7 installation design divide into the three-layer, respectively the symmetry evenly install at girder subassembly 1, first auxiliary girder subassembly 2, second auxiliary girder subassembly 3, third auxiliary girder subassembly 4, the both sides of fourth auxiliary girder subassembly 5, it is one set of process units to go up the installation combination of part.

The main beam component 1 comprises: the upright post assembly 1.1 and the base assembly 1.2; the upright post assembly 1.1 is assembled and welded together by the upright post 1.1.1 and the base connecting plate 1.1.2, two U-shaped bending pieces with equal-pitch installation long holes are designed and butt-welded together for the upright post 1.1.1, and the assembled and welded upright post has the structural strength of a hollow metal component, so that the use effect of a cold-bending metal component is achieved. The base connecting plate 1.1.2 is designed into a U-shaped piece, so that the connection with the upright post 1.1 and the assembly of the base assembly 1.2 are facilitated, and the flat plate pieces 1.1.3 with the same thickness are additionally welded at the installation hole part, so that the thickness and the strength of the connecting part are increased; the base assembly 1.2 the main body base 1.2.1 is designed as an I-shaped metal component, which can be used as a bearing body of a process device and a bearing body of a material, and the base assembly 1.2 after bearing has the function of counterweight of the process device. The welding has base baffle 1.2.2 at base 1.2.1 both ends head for prevent that the material from rolling, closes on that the welding has mounting plate 1.2.3 on the base baffle 1.2.2 of both ends, and the effect is fixed for the installation of process units and prevents shifting. The upright post assembly 1.1 is connected with the base assembly 1.2 through bolts.

The structural composition of the first auxiliary beam assembly 2, the second auxiliary beam assembly 3, the third auxiliary beam assembly 4 and the fourth auxiliary beam assembly 5 is the same as that of the main beam assembly 1.

Lacing wire system 6 include two kinds of lacing wires, one kind is horizontal lacing wire 6.1, one kind is oblique lacing wire 6.2, all adopts circular steel pipe to make, for convenient connection, its end design punching press is duckbilled type to the blanking mounting hole, both differences in length lie in, horizontal lacing wire 6.1 weak point is in oblique lacing wire 6.2. The horizontal tie bar 6.1 and the diagonal draw bar 6.2 are connected by nuts and gaskets through stud bolts passing through the upright post 1.1.1 on the upright post assembly 1.1 and the angle plate connecting plate 8 arranged on the upright post assembly 1.1. One of the main functions of the lacing system 6 is to mount and connect the main beam component 1, the first secondary beam component 2, the second secondary beam component 3, the third secondary beam component 4 and the fourth secondary beam component 5 to form a set of complete process device, and is also a key component for horizontally and vertically adjusting each assembly part after the process device is assembled.

The main function of the angle plate connecting plate 8 is to install the lacing wire system 6, the installation position of the angle plate connecting plate 8 is designed on the upright post 1.1.1 of the upright post assembly 1.1, the prefabricated connecting hole is divided into an upper group of installation holes, a middle group of installation holes and a lower group of installation holes, the upper group of installation holes and the lower group of installation holes are respectively provided with four installation holes, the installation holes at the upper end and the lower end are designed into the installation position of the angle plate connecting plate 8 when the horizontal lacing wire 6.1 is installed, the four horizontal lacing wires 6.1 are installed in total, and the two horizontal lacing wires 6.1 are designed to; the rest one mounting hole is the mounting position of the angle plate connecting plate 8 when the diagonal draw bar 6.2 is mounted, the mounting of the diagonal draw bar 6.2 is different from that of the horizontal tie bar 6.1, the mounting is the combined mounting of the upper group mounting hole and the middle mounting hole of the adjacent upright post 1.1.1, the middle mounting hole and the lower group mounting hole are jointly mounted, two diagonal draw bars 6.2 are mounted totally, and the mounting combination is in a V shape.

The supporting beam device 7 comprises: supporting cross beam 7.1, baffle 7.2, U type connecting plate 7.3. The supporting beam 7.1 adopts two U-shaped bending pieces for butt welding, and the variable cross-section hollow metal member structure of assembly welding increases the strength and achieves the using effect of a cold-bending metal member. A baffle 7.2 is additionally welded at the small-section end of the supporting beam 7.1, and the baffle 7.2 consists of a C-shaped stamping part and a pin shaft to prevent materials from rolling down. Supporting beam 7.1 large cross-section end and U type connecting plate 7.3 assembly welding, supporting beam device 7 after the assembly welding links together through U type connecting plate 7.3 and the stand of girder subassembly 1 closes piece 1.1, the safety device 9 that connected mode adopted safety cotter board 9.1 and split pin 9.2 to constitute, safety cotter board 9.1 cartridge is in stand 1.1.1 and U type connecting plate 7.3's connection slot hole, the part adoption split pin 9.2 locking is stretched out at both ends, prevent that safety cotter board 9.1 from falling by the exogenic action, play the safety protection effect. The mounting position of the supporting beam device 7 is determined according to the maximum packaging specification of the accessed slender metal member, and the mounting height of the supporting beam device can be adjusted at equal pitch on the upright post assembly 1.1 along with the change of the packaging specification.

The mounting method and the position of the supporting beam device 7 on the first secondary beam assembly 2, the second secondary beam assembly 3, the third secondary beam assembly 4 and the fourth secondary beam assembly 5 are the same as the mounting method and the position of the supporting beam device 7 and the main beam assembly 1.

In the embodiment, the total height of the process device is 3.5 meters, the process device can pass through a safety distance of 0.5 meter above the process device according to the lifting height of a new factory and the lifting of the slender metal member, and the access operation of materials at the lowest layer is met; its slender type metal component length that bears 6 meters, its total length is greater than each 0.4 meters of two supporting beam devices 7 of outermost end on the process units when depositing, for the cantilever beam state, in order to avoid the flagging deformation of gravity that the material was deposited, process units's girder subassembly 1, first auxiliary girder subassembly 2, the even settlement of second auxiliary girder subassembly 3, third auxiliary girder subassembly 4, the 5 design intervals 1.3 meters of fourth auxiliary girder subassembly, is used for two: one is that the middle space can avoid the material gravity drooping deformation, and the other is that the cantilever part material gravity drooping deformation is avoided.

In this embodiment, the process device designs eight cargo spaces of four layers in total, wherein six cargo spaces of upper three layers are composed of supporting beam devices 7 installed on the columns 1.1.1 of the main beam component 1, the first secondary beam component 2, the second secondary beam component 3, the third secondary beam component 4 and the fourth secondary beam component 5, the supporting beam devices 7 are symmetrically installed on the columns 1.1.1 of each component, the installation heights of the five supporting beam devices on each side of each layer are the same and are used as load carriers of materials, two cargo spaces of the lower layer are the same as the supporting beam devices 7, and the two cargo spaces are also composed of the base assembly 1.2 of each component. The design of the height of each layer is reserved with a hoisting safety distance of 0.3 meter in comparison with the maximum packaging specification for storing the slender metal members.

The process devices are used in groups, can be designed according to the storage area of a newly-built factory building, the monthly stock and the material types, are arranged in two rows and are uniformly distributed, the distance between the two rows is designed to be 2 meters, and the distance between the process devices distributed in rows is designed to be 1.2 m. The slender metal components stored on the same side of each group of process devices are required to be consistent in specification, and first-in first-out is guaranteed.

The storage device for the slender metal component of the utility model is manufactured as follows

【1】 Installing a main beam component 1, horizontally placing a base combined piece 1.2, vertically placing an upright post combined piece 1.1 at the middle part of the base combined piece 1.2, and combining and assembling the upright post combined piece 1.1 and the base combined piece 1.2 together through two groups of hexagon socket head cap bolts, gaskets and locknuts by contrasting hole sites on a support connecting plate 1.1.2 and a support 1.2.1, wherein two persons are cooperated and matched in the installation process under the general condition, and the assembled combined piece ensures that the verticality of the upright post combined piece 1.1 and the base combined piece 1.2 meets the requirement;

【2】 Installing a first auxiliary beam assembly 2, a second auxiliary beam assembly 3, a third auxiliary beam assembly 4 and a fourth auxiliary beam assembly 5 in the same way as the main beam assembly 1;

【3】 Installing angle plate connecting plates 8, wherein the angle plate connecting plates 8 on the main beam assembly 1 are installed on one side, namely, the left side of the main beam assembly 1 is installed, three angle plate connecting plates 8 are installed in the upper portion of the main beam assembly in a corresponding mode, the two angle plate connecting plates 8 on the upper portion of the main beam assembly are installed in a face-to-face symmetric mode, the angle plate connecting plate 8 on the lower portion of the main beam assembly is installed independently, the angle plate connecting plate 8 is not installed in the middle hole, the three angle plate connecting plates 8 on the lower portion of the main beam assembly in a corresponding; the corner plate connecting plates 8 on the first auxiliary beam 2 are installed on two sides, namely, two sides of the upright post assembly 1.1 are both installed, the corner plate connecting plates 8 are symmetrically installed on two holes on the left side and the right side of the upper part in a face-to-face mode, the corner plate connecting plates 8 are installed on one hole on the two sides of the middle part, and the corner plate connecting plates 8 are symmetrically installed on two holes on the left side and the right side of the lower part in a face-to-face mode; the corner plate connecting plates 8 on the second auxiliary beam component 3 are also installed on two sides, namely, both sides of the upright post assembly 1.1 are installed, the corner plate connecting plates 8 on the left side and the right side of the upright post assembly 1.1 are installed the same as the corner plate connecting plates 8 on the main beam component 1, but the left side and the right side are installed in a mirror image manner; the mounting of the corner plate connecting plate 8 on the third secondary beam assembly 4 is the same as that of the corner plate connecting plate 8 on the first secondary beam assembly 2; the installation of the corner plate connecting plate 8 on the fourth auxiliary beam assembly 5 is the same as the installation of the right corner plate connecting plate 8 on the second auxiliary beam assembly 3; when the angle plate connecting plate 8 is installed, one straight edge of the angle plate connecting plate is flush with the plane of the upright post assembly 1.1, after the hole positions are aligned, the angle plate connecting plate is pre-locked by using double-end bolts and nuts to complete installation, and the other straight edge of the angle plate connecting plate is connected with the horizontal tie bar 6.1 and the diagonal tie bar 6.2.

【4】 Installing a lacing wire system 6, taking a main beam component 1 as a first positioning reference, fixing a first auxiliary beam component 2 in parallel with the main beam component 1 according to a design interval, firstly installing two horizontal lacing wires 6.1 at the lower part, connecting the left end of the horizontal lacing wire 6.1 with an angle plate connecting plate 8 at the lower part of a vertical column assembly 1.1 of the first auxiliary beam component 2, connecting the right end of the horizontal lacing wire with the angle plate connecting plate 8 at the lower part of the vertical column assembly 1.1 of the main beam component 1, pre-locking the horizontal lacing wires and the angle plate connecting plate through bolts and nuts to finish installation, and enabling the installed horizontal lacing wires 6.1 to be in a; then, the middle diagonal draw bars 6.2 are installed, the left ends of the two diagonal draw bars 6.2 are simultaneously connected with the angle plate connecting plate 8 on the upright post assembly 1.1 of the first auxiliary beam assembly 2 and are respectively installed at the two sides of the angle plate connecting plate 8, the upper and lower ends of the right ends are respectively connected with the angle plate connecting plate 8 on the upright post assembly 1.1 of the main beam assembly 1, and the installed diagonal draw bars 6.2 are in a horizontal V shape; finally, the two upper horizontal lacing wires 6.1 are installed, and the installation method is the same as that of the two lower horizontal lacing wires 6.1; after the installation of the main beam assembly 1 and the lacing wire system 6 of the first auxiliary beam assembly 2 is completed, the first auxiliary beam assembly 2 is taken as a secondary positioning benchmark, the second auxiliary beam assembly 3 is parallel to and positioned with the first auxiliary beam assembly 2 according to the design interval and is connected with the lacing wire system 6, the horizontal lacing wires 6.1 and the diagonal lacing wires 6.2 are in the same installation and connection mode, and the horizontal V-shaped of the group of diagonal lacing wires 6.2 is only in mirror symmetry with the horizontal V-shaped of the diagonal lacing wires 6.2 of the main beam assembly 1 and the first auxiliary beam assembly 2, so that the assembly of the lacing wire system 6 between the main beam assembly 1, the first auxiliary beam assembly 2, the second auxiliary beam assembly 3, the third auxiliary beam assembly 4 and the fourth auxiliary beam assembly 5 is completed.

【5】 Installing supporting beam devices 7, installing U-shaped connecting plates 7.2 of each supporting beam device 7 on a main beam component 1, a first auxiliary beam component 2, a second auxiliary beam component 3, a third auxiliary beam component 4 and a stand column assembly 1.1 of a fourth auxiliary beam component 5 respectively, after comparing hole positions according to the designed height and size, enabling safety pin plates 9.1 to penetrate through the U-shaped connecting plates 7.2 and stand columns 1.1.1, enabling the two ends to stretch out uniformly, installing split pins 9.2 on the safety pin plates 9.1, then knocking the supporting beam devices 7 by using a wooden hammer to move downwards, enabling the upper ends of the safety pin plates 9.1 to be in full contact with holes in the U-shaped connecting plates 7.2 and the stand columns 1.1.1, confirming that the installation is in place, and playing a safety precaution role.

【6】 Installing a single-group process device, after a main beam component 1, a first auxiliary beam component 2, a second auxiliary beam component 3, a third auxiliary beam component 4, a fourth auxiliary beam component 5, a lacing wire system 6, a supporting beam device 7, an angle plate connecting plate 8 and a safety protection device 9 of the process device are respectively assembled, finely adjusting the lacing wire system 6 to ensure the design size of the process device and fasten the process device, moving the process device to a new process setting position, adjusting the upright posts of the process device to be vertical by using 1-3 mm sizing blocks, and installing expansion screws according to installation instructions of chemical expansion bolts by contrasting mounting holes on a mounting base plate 1.2.3 of each base assembly 1.2.

【7】 And (3) installing grouped process devices, firstly fixing and installing the first row and the first column of process devices on the left lower edge according to a process fixing diagram, and after the installation is finished, uniformly arranging the process devices according to the column design interval of 2 meters and the row design interval of 1.2m to finish the installation.

During operation, the hoisting and the access of the storage device of the slender metal component are implemented according to the following rules:

【1】 The hoisting of the slender metal member is matched with a hoisting facility with variable frequency stepless speed regulation in the three directions of up-down, front-back and left-right, so that the hoisting facility with only low speed and high speed regulation speeds is avoided, and the stable acceleration and deceleration, collision prevention and impact prevention in the hoisting process are ensured; the safety sling 10 with length adjustment is used in cooperation to ensure vertical lifting.

【2】 The storage and taking of the slender metal components are firstly specified, the slender metal components are fixed on a process device, in order to ensure the first-in first-out, only the slender metal components with the same specification can be stored on one side of the process device, otherwise, the vertical material pouring process exists; the storage operation sequence is from bottom to top, namely a first hanging long and thin metal component is stored on the base, a second hanging long and thin metal component is stored on the third layer of supporting beam device, a third hanging long and thin metal component is stored on the second layer of supporting beam device, a fourth hanging long and thin metal component is stored on the first layer of supporting beam device, and the storage operation sequence is sequentially stored; the operation sequence of fetching is from top to bottom, and the storing is opposite to the operation of storing.

The utility model discloses solved the frequent material of falling of slender type metal component warehouse entry production material effectively, greatly improved the site work environment, eliminated the potential safety hazard, promoted production efficiency, reached "FIFO" storage standard management, satisfied safety in production work demand.

Claims (4)

1. A storage unit for elongated metal members, comprising: the auxiliary beam comprises a main beam assembly (1), a first auxiliary beam assembly (2), a second auxiliary beam assembly (3), a third auxiliary beam assembly (4), a fourth auxiliary beam assembly (5), a lacing system (6), a supporting beam device (7), a corner plate connecting plate (8) and a safety protection device (9); the method is characterized in that: the main beam assembly (1) and the first auxiliary beam assembly (2), the first auxiliary beam assembly (2) and the second auxiliary beam assembly (3), the second auxiliary beam assembly (3) and the third auxiliary beam assembly (4), the third auxiliary beam assembly (4) and the fourth auxiliary beam assembly (5) are sequentially connected and installed together through a lacing wire system (6), and at least two layers of supporting beam devices (7) are symmetrically and uniformly installed on two sides of the main beam assembly (1), the first auxiliary beam assembly (2), the second auxiliary beam assembly (3), the third auxiliary beam assembly (4) and the fourth auxiliary beam assembly (5) respectively.

2. A storage unit for elongated metal members as claimed in claim 1, wherein: the main beam assembly (1) comprises: a column assembly (1.1) and a base assembly (1.2); the upright post assembly (1.1) comprises upright posts (1.1.1), a base connecting plate (1.1.2) and a flat plate piece (1.1.3); the upright column (1.1.1) is vertically fixedly connected on the base connecting plate (1.1.2); the base connecting plate (1.1.2) is a U-shaped piece, and flat plate pieces (1.1.3) with the same thickness are welded at the mounting hole part; the base assembly (1.2) comprises: a main body base (1.2.1), a base baffle (1.2.2) and a mounting bottom plate (1.2.3); the main body base (1.2.1) is an I-shaped metal component, base baffles (1.2.2) are welded at two end heads of the main body base (1.2.1), mounting bottom plates (1.2.3) are welded on the base baffles (1.2.2) close to two ends, and the upright post assembly (1.1) is connected onto the base assembly (1.2) through bolts.

3. A storage unit for elongated metal members as claimed in claim 1, wherein: the lacing wire system (6) comprises: the horizontal tie bar (6.1) and the diagonal tie bar (6.2), wherein the horizontal tie bar (6.1) is shorter than the diagonal tie bar (6.2); horizontal lacing wire (6.1), diagonal draw (6.2) and stand close scute connecting plate (8) of installing on piece (1.1) and be connected, use stud to pass girder subassembly (1), first auxiliary girder subassembly (2), the vice roof beam subassembly of second (3), third auxiliary girder subassembly (4), the stand of fourth auxiliary girder subassembly (5) closes piece (1.1) and scute connecting plate (8) respectively during the connection, both ends are through locking gasket and lock nut fastening.

4. A storage unit for elongated metal members as claimed in claim 1, wherein: the supporting beam device (7) comprises: a supporting beam (7.1), a baffle (7.2) and a U-shaped connecting plate (7.3); supporting beam (7.1) adopts two U types to bend a welding, supporting beam (7.1) small cross section end has welded baffle (7.2) additional, supporting beam (7.1) large cross section end and U type connecting plate (7.3) welding, safe protector (9) are connected through U type connecting plate (7.3) and the stand closes piece (1.1) of girder subassembly (1) in supporting beam device (7) after the welding and cotter board (9.1) and cotter pin (9.2) constitution safety device (9), safety cotter board (9.1) cartridge is in the connection slot hole of stand (1.1.1) and U type connecting plate (7.3).

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