CN215624473U - Shelf for storing cylindrical materials - Google Patents
Shelf for storing cylindrical materials Download PDFInfo
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- CN215624473U CN215624473U CN202121861977.4U CN202121861977U CN215624473U CN 215624473 U CN215624473 U CN 215624473U CN 202121861977 U CN202121861977 U CN 202121861977U CN 215624473 U CN215624473 U CN 215624473U
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Abstract
A shelf for storing cylindrical materials comprises two stop blocks (1), a transverse rectangular tube (2), two vertical rectangular tubes (3) and two supporting plates (4); the upper ends of the two vertical rectangular pipes (3) are respectively welded on the lower surfaces of the two ends of the transverse rectangular pipe (2), and the lower ends of the vertical rectangular pipes (3) are welded with the supporting plate (4); the stop blocks (1) are wedge-shaped blocks, two stop blocks (1)) are welded on the upper surface of the transverse rectangular pipe (2), and the two stop blocks (1) oppositely form a V-shaped included angle; the shelf shelves (6) are of a symmetrical structure, namely two stop blocks (1) are welded in the middle of the upper surface of the rectangular cross pipe (2). The combination of a plurality of shelf shelves can be used for storing cylindrical materials. The utility model has the advantages of high steel utilization rate, low loss and simple manufacture.
Description
Technical Field
The utility model belongs to the technical field of storage, and relates to a shelf for storing cylindrical materials in a stereoscopic warehouse.
Background
The phenomenon of storing cylindrical materials by adopting a stereoscopic warehouse is more and more extensive. How to make the shelf for storing cylindrical materials lower in cost and more economical is always the direction of efforts of designers in the field.
The shelf device disclosed in the chinese patent CN201821923238.1, "a shelf device capable of storing residual rolls in an automatic three-dimensional warehouse", effectively improves the shelf storage efficiency of cylindrical materials, and is convenient for the informatization management of the materials. However, the device has the following defects: firstly, the goods shelf device needs a large amount of manual field assembly due to low utilization rate of steel, so that the goods shelf cost is higher; secondly, the goods shelf device is assembled by manual work on site, the installation precision of the goods shelf device can not be ensured, and the goods shelf device needs to be corrected in batches at the later stage.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a shelf for storing cylindrical materials, and overcomes the defects of the prior art.
The technical scheme of the utility model is as follows:
a shelf stop for storing cylindrical materials comprises two stop blocks, a transverse rectangular pipe, two vertical rectangular pipes and two supporting plates; the upper ends of the two vertical rectangular pipes are respectively welded on the lower surfaces of the two ends of the transverse rectangular pipe, and the lower ends of the vertical rectangular pipes are welded with the supporting plate; the stop block is a wedge-shaped block, two stop blocks are welded on the upper surface of the transverse rectangular pipe, and the two stop blocks oppositely form a V-shaped included angle.
For the convenience of mass production and installation, the shelf stop is generally of a symmetrical structure, namely two stop blocks are welded in the middle of the upper surface of the transverse and rectangular pipe, and the shelf stop is of a symmetrical structure in the length direction of the transverse and rectangular pipe.
The stop block is formed by welding a bending plate and a rib plate, the bending plate is formed by bending an isosceles trapezoid steel plate in the same direction along two high lines which are bilaterally symmetrical about the center line of the isosceles trapezoid steel plate, and the bending plate after bending) has a concave section; the rib plates are rectangular steel plates, and the width of each rib plate is equal to the concave inner width of the bending plate; the rib plates are embedded in the concave shape of the bending plate and are in close contact with three concave surfaces of the bending plate; the rib plates are perpendicular to the concave bottom surfaces of the bending plates, the rib plates are parallel to the upper bottom edges of the bending plates, and the upper bottom edges of the bending plates are the upper bottom edges of the isosceles trapezoid steel plates before bending.
The concave inner width of the stop block is equal to the width of the transverse moment pipe, the stop block is reversely buckled on the upper surface of the transverse moment pipe, and the edge of the rib plate and the upper bottom edge of the bending plate are in close contact with the upper surface of the transverse moment pipe; the rib plates, the concave bottom surfaces of the bending plates and the upper surfaces of the rectangular pipes are intersected to form a right-angled triangle.
The utility model has the beneficial effects that: the method is suitable for mass production, reduces the labor intensity of workers, and ensures the quality and interchangeability of goods shelf products; the steel utilization rate is high, the loss is low, and the shelf cost is reduced.
Drawings
Figure 1 is an isometric view of a shelf for storing cylindrical items.
Fig. 2 is a front view of the stop block.
Fig. 3 is an isometric view of a stop block.
FIG. 4 is a schematic view of cylindrical material storage.
FIG. 5 is a layout diagram of blanking of bending plates.
Fig. 6 is a schematic view of the bent plate from unfolded to bent.
FIG. 7 is a sectional view showing positioning of a stopper.
In the figure: 1-a stop block, 2-a transverse rectangular pipe, 3-a vertical rectangular pipe, 4-a support plate, 5-a shelf beam, 6-a shelf stop, 7-a cylindrical material, 11-a bending plate, 12-a rib plate, 13-an upper bottom edge of the bending plate, 14-a rib plate edge, 15-a concave bottom surface of the stop block and 21-an upper surface of the transverse rectangular pipe.
Detailed Description
The utility model is further described with reference to the accompanying drawings and embodiments.
FIG. 1 shows: a shelf for storing cylindrical materials is formed by welding two stop blocks (1), a transverse rectangular tube (2), two vertical rectangular tubes (3) and two supporting plates (4). The upper ends of the two vertical rectangular pipes (3) are respectively welded on the lower surfaces of the two ends of the transverse rectangular pipe (2), and the lower ends of the vertical rectangular pipes (3) are welded with the supporting plate (4); the stop blocks (1) are wedge-shaped blocks, two stop blocks (1)) are welded on the upper surface of the transverse rectangular pipe (2), and the two stop blocks (1) oppositely form a V-shaped included angle; the shelf shelves (6) are of symmetrical structures, and the two stop blocks (1) are symmetrically and reversely buckled in the middle and are welded and fixed on the transverse rectangular pipe (2).
Fig. 2 and 3 show: the stop block (1) is formed by welding a bending plate (11) and a rib plate (12).
FIG. 4 shows: the number of shelf shelves of a storage location is determined by the height and weight of the cylindrical material. The rectangular steel pipe and the steel plate of the shelf are selected according to the bearing working condition. A certain stereoscopic warehouse project needs to store 14500 cylindrical materials (7), one storage position stores one cylindrical material (7), and through calculation, the project adopts four shelf shelves (6) to support one cylindrical material. In fig. 4, four shelf shelves (6) are arranged on the shelf beam (5) to form a storage position, so that 58000 shelf shelves (6) are needed for the project. V-shaped clamp angles are formed on the upper surfaces of the two stop blocks (1) of the shelf shelves (6) for storing cylindrical materials (7). The cylindrical materials (7) are stored on the stop blocks (1) on the four shelf shelves (6), and the stop blocks (1) can effectively prevent the cylindrical materials (7) from rolling. The V-shaped included angles of the shelf baffles (6) of the four shelf racks are equal and coplanar, so that each shelf baffle (6) can bear the weight. If the deviation of the V-shaped included angle of the shelf shelves (6) is too large, partial shelf shelves (6) cannot bear the load, so that the shelf is unbalanced and the safety of the shelf is endangered.
Since the shelves are assembled on site, 58000 shelf shelves (6) are required to be interchangeable. The utility model can ensure that 58000 shelf shelves (6) have interchangeability, and particularly the V-shaped included angle of each shelf (6) is within an allowable error range.
Through calculation, the transverse rectangular pipe (2) and the vertical rectangular pipe (3) of the shelf (6) of the project adopt rectangular steel pipes 60 multiplied by 40 multiplied by 4 mm. The supporting plate (4), the bending plate (11) and the rib plate (12) are made of steel plates with the thickness of 5mm, wherein the rib plate (12) is a rectangular steel plate with the size of 60 multiplied by 35 multiplied by 5 mm.
FIG. 5 shows: the supporting plate (4) and the rib plate (12) are rectangular steel plates and are formed by directly carrying out laser blanking on 5mm steel plates; the transverse rectangular pipes (2) and the vertical rectangular pipes (3) are formed by directly cutting and blanking rectangular steel pipes 60mm multiplied by 40 mm multiplied by 4 mm. Because the bending plate (11) is formed by numerically controlling and bending the isosceles trapezoid steel plates, blanking can be typeset according to the blanking of the isosceles trapezoid steel plates as shown in a figure 5, so that the utilization rate of steel is high, and the loss of the steel is low.
FIG. 6 shows: the bending plate (11) is formed by numerically controlling and bending an isosceles trapezoid steel plate, the isosceles trapezoid steel plate is bent along two high lines which are bilaterally symmetrical about the central line of the isosceles trapezoid steel plate in the same direction, and the cross section of the bending plate (11) is concave after bending. The concave inner width of the bending plate (11) is equal to the width of the rectangular pipe (2) by 60mm, so that the stop block (1) can be tightly buckled on the rectangular pipe (2) and can play a role in welding and positioning.
Fig. 2 and 3 show: the stop block (1) is formed by welding a bending plate (11) and a rib plate (12). The stop block (1) is manufactured by embedding the rib plate (12) into the concave shape of the bending plate (11) and tightly contacting with three concave surfaces of the bending plate (11); the rib plates (12) are perpendicular to the concave bottom surfaces (15) of the bending plates (11), the rib plates (12) are positioned with the upper bottom edges (13) of the bending plates (11) and are parallel to the upper bottom edges (13) of the bending plates (11), the distance from the rib plates (12) to the upper bottom edges (13) of the bending plates (11) is 160mm, and the rib plates (12) are welded to the bending plates (11) in a positioning mode through welding tools, so that the product quality of each stop block (1) can be guaranteed, and interchangeability is achieved.
And finally, a welding tool is adopted for rapid clamping and positioning, welding quality is guaranteed by robot welding, and shelves (6) are produced in a large batch. A transverse rectangular pipe (2), two vertical rectangular pipes (3) and two supporting plates (4) are welded to form an n-shaped structure. As shown in fig. 7, the inner width of the concave shape of the stop block (1) is equal to the width of the rectangular tube (2), the two stop blocks (1) are symmetrically and reversely buckled in the middle and then welded at the middle position of the upper surface of the rectangular tube (2), and the included angles formed by the concave bottom surfaces of the two stop blocks (1) and the upper surface (21) of the rectangular tube (2) are equal. The shelf shelves (6) are in a bilateral symmetry structure. The rib plate edge (14) and the upper bottom edge (13) of the bending plate are tightly contacted with the upper surface (21) of the rectangular cross pipe (2).
FIG. 7 shows: the rib plates (12) are vertical to the concave bottom surfaces (15) of the bending plates (11), the rib plates (12) are rectangular steel plates with the size of 60 multiplied by 35 multiplied by 5mm, and the distance from the rib plates (12) to the upper bottom edges (13) of the bending plates is 160 mm; therefore, the rib plate (12), the concave bottom surface (15) of the stop block and the upper surface (21) of the rectangular pipe are intersected to form a right-angled triangle. Because one square edge of the right triangle is 160mm in length, the other square edge of the right triangle is 35mm in length, and the two square edges are determined, the included angle between the concave bottom surface (15) of the stop block (1) and the upper surface (21) of the rectangular cross pipe (2) is determined to be about 120. Therefore, the included angle between the concave bottom surface (15) of the stop block (1) of the shelf stop block (6) produced in large scale and the upper surface (21) of the rectangular cross tube (2) can be ensured to be within the allowable error range. Two stop blocks (1) on the shelf (6) are positioned by adopting a simple welding tool and are bilaterally symmetrical. Thereby ensuring that the upper surfaces of the two stop blocks (1) of the shelf are equal and coplanar in V-shaped included angle.
The shelf shelves are easy for mass production, and the V-shaped included angles of all the shelf shelves (6) can be ensured to be within the allowable error range, so that the shelf shelves have interchangeability.
Claims (3)
1. The utility model provides a store goods shelves fender of cylindrical material which characterized in that: comprises two stop blocks (1), a transverse rectangular pipe (2), two vertical rectangular pipes (3) and two support plates (4); the upper ends of the two vertical rectangular pipes (3) are respectively welded on the lower surfaces of the two ends of the transverse rectangular pipe (2), and the lower ends of the vertical rectangular pipes (3) are welded with the supporting plate (4); the stop blocks (1) are wedge-shaped blocks, the two stop blocks (1) are welded on the upper surface of the transverse rectangular pipe (2), and the two stop blocks (1) oppositely form a V-shaped included angle; the shelf shelves (6) are of a symmetrical structure, namely two stop blocks (1) are welded in the middle of the upper surface of the rectangular cross pipe (2).
2. A shelf stop for storing cylindrical items according to claim 1, wherein: the stop block (1) is formed by welding a bending plate (11) and a rib plate (12), the bending plate (11) is formed by bending an isosceles trapezoid steel plate in the same direction along two high lines which are bilaterally symmetrical about the central line of the isosceles trapezoid steel plate, and the cross section of the bending plate (11) is concave after being bent; the rib plates (12) are rectangular steel plates, and the width of the rib plates (12) is equal to the concave inner width of the bending plate (11); the rib plate (12) is embedded in the concave shape of the bending plate (11) and is in close contact with three concave surfaces of the bending plate (11); the rib plates (12) are perpendicular to the concave bottom surfaces (15) of the bending plates (11), the rib plates (12) are parallel to the upper bottom edges (13) of the bending plates (11), and the upper bottom edges (13) of the bending plates (11) are the upper bottom edges of the isosceles trapezoid-shaped steel plates before bending.
3. A shelf stop for storing cylindrical material according to claim 1 or 2, characterised in that: the concave inner width of the stop block (1) is equal to the width of the rectangular cross pipe (2), the stop block (1) is reversely buckled on the upper surface (21) of the rectangular cross pipe (2), and the edges of the rib plates (12) and the upper bottom edge of the bending plate (11) are tightly contacted with the upper surface (21) of the rectangular cross pipe (2); the rib plates (12), the concave bottom surfaces (15) of the bending plates (11) and the upper surfaces (21) of the rectangular pipes (2) are intersected to form a right-angled triangle.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202121861977.4U CN215624473U (en) | 2021-08-10 | 2021-08-10 | Shelf for storing cylindrical materials |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202121861977.4U CN215624473U (en) | 2021-08-10 | 2021-08-10 | Shelf for storing cylindrical materials |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN215624473U true CN215624473U (en) | 2022-01-25 |
Family
ID=79896449
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202121861977.4U Active CN215624473U (en) | 2021-08-10 | 2021-08-10 | Shelf for storing cylindrical materials |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN215624473U (en) |
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2021
- 2021-08-10 CN CN202121861977.4U patent/CN215624473U/en active Active
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| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CP01 | Change in the name or title of a patent holder |
Address after: 410117 268 Xinxing Road, Yuhua Economic Development Zone, Changsha, Hunan Patentee after: China Light Changtai (Changsha) Intelligent Technology Co.,Ltd. Address before: 410117 268 Xinxing Road, Yuhua Economic Development Zone, Changsha, Hunan Patentee before: CHANGSHA CHAINT MACHINERY Co.,Ltd. |
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| CP01 | Change in the name or title of a patent holder |