A storage goods placement rack
By designing modular frame units and adjustable placement panels, the problem of fixed height in existing warehouse goods placement racks has been solved, enabling flexible adjustment of height and width, thus improving applicability and stability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHAANXI RUIYUAN KANGCHENG TECH CO LTD
- Filing Date
- 2025-08-01
- Publication Date
- 2026-06-09
Smart Images

Figure CN224336322U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of storage rack technology, and more specifically, to a storage rack for warehouse goods. Background Technology
[0002] Warehouse storage racks are three-dimensional storage devices used to store goods, achieving efficient storage management through rational space planning.
[0003] Currently, the assembly process of warehouse storage racks typically involves fixing multiple uprights to a base plate to form a frame, and then securing multiple storage panels to the frame using bolts and other fasteners. However, in actual use, the height of the existing uprights is generally fixed, resulting in a fixed height for the assembled rack. When racks of different heights are needed, the existing racks are difficult to flexibly assemble according to the required height, leading to poor applicability and thus requiring improvement. Summary of the Invention
[0004] The purpose of this utility model is to provide a warehouse goods storage rack to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution:
[0006] A warehouse goods placement rack includes multiple interconnectable rack units. Each rack unit includes multiple opposing columns connected by connectors. A liftable placement plate is provided between the columns via mounting components, and the placement plate is used to place goods. Each column has a mounting cavity with an opening at its lower end along its height direction. A mounting block is provided within the mounting cavity at the lower opening. An insertion groove is provided on the lower side of the mounting block along its height direction. An insertion block is provided at the upper end of the column, and the insertion block is inserted into the corresponding insertion groove to achieve the splicing between rack units.
[0007] Furthermore, a slot is provided on one side wall of the column to connect to the mounting cavity; a locking bolt is threaded on the mounting block, which is used to fix the plug block inserted into the plug slot.
[0008] Furthermore, multiple mounting holes are provided on the other side wall of the column along its height direction. The mounting component includes a connecting block, which is disposed opposite to the side wall of the placement plate. The connecting block is provided with mounting bolts, which are threaded into the mounting holes at different heights to realize the installation of the placement plate at different height positions of the column.
[0009] Furthermore, a T-shaped groove is provided along the length of the side wall opposite the placement plate, and the connecting block is L-shaped with one end extending into the groove for sliding.
[0010] Furthermore, the bottom wall of the chute is provided with positioning holes, and the connecting block is also provided with positioning bolts. The positioning bolts are threaded into the positioning holes to achieve the fixed installation of the connecting block on the placement plate.
[0011] Furthermore, the connector includes a connecting cylinder disposed on one of the mounting blocks in the opposing mounting blocks. The interior of the connecting cylinder has a slot along its length, and both ends of the slot are in communication with the outside. The front and rear sides of the connecting cylinder are respectively provided with notches communicating with the slot and a first connecting groove. The other mounting block is provided with a connecting post that can extend into the connecting cylinder. The side wall of the connecting post is provided with a second connecting groove that penetrates the connecting post along its length. The connector also includes a connecting bolt. The connecting bolt extends into the first connecting groove and the second connecting groove. The connecting bolt is provided with a locking nut. The locking nut abuts against the side wall of the connecting post to realize the connection between the opposing posts.
[0012] Furthermore, both the connecting cylinder and the connecting column are square, and the sidewall of the connecting column slides against the corresponding inner sidewall of the connecting cylinder.
[0013] Compared with the prior art, the beneficial effects of this utility model are:
[0014] 1. This utility model allows for vertical assembly of two frame units by aligning the insertion slots on multiple mounting blocks of one frame unit with the insertion blocks of another frame unit and inserting them. At this time, the frame units can be stacked sequentially according to the required height of the frame, thus enabling flexible splicing according to the required height of the frame.
[0015] In this invention, the connector is telescopic, which allows the spacing between the opposing columns to be adjusted, thus enabling placement plates of different widths to be installed on the opposing columns. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the structure of a warehouse goods placement rack according to the present utility model.
[0017] Figure 2 This is a schematic diagram of the insertion slot on the mounting block in this utility model.
[0018] Figure 3 This is a structural schematic diagram of a single frame unit in this utility model.
[0019] Figure 4 This is a schematic diagram of the exploded structure of the column splicing in this utility model.
[0020] Figure 5 This is an exploded structural diagram of the connection block and the placement plate in this utility model.
[0021] Figure 6This is an exploded structural diagram of the connector in this utility model.
[0022] Figure 7 This is a schematic diagram of the interconnected structure of the columns in this utility model.
[0023] The meanings of the labels in the diagram are as follows: 100, placement plate; 101, column; 102, plug-in block; 103, connecting block; 104, mounting bolt; 105, mounting hole; 106, slide groove; 107, positioning bolt; 108, connecting cylinder; 109, connecting column; 110, mounting cavity; 111, mounting block;
[0024] 200. Plug-in slot;
[0025] 400. Locking bolts;
[0026] 500, positioning hole;
[0027] 600. Connecting bolt; 601. First connecting groove; 602. Second connecting groove; 603. Locking nut; 604. Slot. Detailed Implementation
[0028] To further understand the content of this utility model, a detailed description of this utility model will be provided in conjunction with the accompanying drawings and embodiments. It should be understood that the embodiments are merely illustrative of this utility model and are not intended to limit it.
[0029] The following is in conjunction with the appendix Figures 1-7 This embodiment will be described in further detail.
[0030] Combined with appendix Figures 1-7 This embodiment of a warehouse goods placement rack includes multiple rack units that can be spliced together. Each rack unit includes multiple uprights 101 arranged opposite each other, and the opposing uprights 101 are connected by connectors. The multiple uprights 101 are provided with liftable placement plates 100 by mounting members, and the placement plates 100 are used to place goods. Each upright 101 has a mounting cavity 110 with an opening at its lower end along its height direction. The mounting cavity 110 has a mounting block 111 with an opening at its lower end. The lower side of the mounting block 111 has an insertion groove 200 along its height direction. The upper end of the upright 101 has an insertion block 102. The insertion block 102 is inserted into the corresponding insertion groove 200 to realize the splicing between rack units.
[0031] In actual use, when it is necessary to assemble the frame unit, the opposing columns 101 are first connected by connectors, and then the placement plate 100 is installed between the four columns 101 in a height-adjustable manner by the mounting components, thereby completing the assembly of the frame unit.
[0032] In actual use, the lower side of the mounting block 111 is flush with the lower side of the column 101. When the rack needs to be assembled, the operator lifts one rack unit and aligns the insertion slots 200 on the multiple mounting blocks 111 on the rack unit with the insertion blocks 102 on another rack unit and inserts them, so that the two rack units can be assembled vertically. At this time, the rack units can be stacked in sequence according to the required height of the rack, so that they can be flexibly spliced according to the required height of the rack.
[0033] When goods of different heights need to be placed on the placement plate 100, the placement plate 100 is raised and lowered by the mounting component, so that the distance between adjacent placement plates 100 can be adjusted, so that goods of different heights can be placed on the placement plate 100.
[0034] The connector is telescopic, which allows the spacing between the relative columns 101 to be adjusted according to the width of the placement plate 100, so that placement plates 100 of different widths can be installed on the relative columns 101.
[0035] The side wall of the plug-in block 102 slides against the corresponding side wall of the plug-in slot 200, making it difficult for the plug-in block 102 to shake within the plug-in slot 200. This makes it difficult for adjacent frame units to move, thus ensuring a more stable installation between adjacent frame units.
[0036] Specifically, in order to improve the stability of the connection between adjacent frame units, combined with Figures 3-4 As shown, in this embodiment, a slot communicating with the mounting cavity 110 is provided on one side wall of the column 101; a locking bolt 400 is threaded on the mounting block 111, which is used to fix the plug block 102 inserted into the plug slot 200.
[0037] In actual use, when the plug block 102 is fully inserted into the plug slot 200, the upper end of the plug block 102 can abut against the top wall of the plug slot 200. At this time, the operator can insert his hand into the mounting cavity 110 through the slot and tighten the locking bolt 400 so that the locking bolt 400 can be threaded into the plug block 102, thereby fixing the plug block 102 in the plug slot 200 and improving the stability of the connection between adjacent frame units.
[0038] Combination Figures 2-3As shown, in this embodiment, a plurality of mounting holes 105 are provided on the other side wall of the column 101 along its height direction. The mounting component includes a connecting block 103, which is disposed opposite to the side wall of the placement plate 100. The connecting block 103 is provided with mounting bolts 104, which are threaded into the mounting holes 105 at different heights to realize the installation of the placement plate 100 at different height positions of the column 101.
[0039] In actual use, the connecting block 103 is fixedly installed on the side wall corresponding to the placement plate 100. When the placement plate 100 needs to be installed between the opposing columns 101, the side wall of the placement plate 100 is abutted against the side wall corresponding to the opposing column 101, so that the side wall of the connecting block 103 can slide against the side wall corresponding to the column 101. The placement plate 100 is slid down into the opposing columns 101, and the mounting bolts 104 are aligned with the mounting holes 105. The multiple mounting bolts 104 are screwed into the corresponding mounting holes 105, so that the placement plate 100 can be fixedly installed between the opposing columns 101.
[0040] In actual use, when it is necessary to adjust the spacing between adjacent placement plates 100, the mounting bolts 104 are unscrewed out of the corresponding mounting holes 105, and the placement plates 100 are moved up and down according to the height of the spacing. When they are moved to the appropriate position, the mounting bolts 104 are screwed into the corresponding mounting holes 105, thereby adjusting the spacing between adjacent placement plates 100 so that goods of different heights can be placed on the placement plates 100.
[0041] When the goods are too tall, the placement plates 100 on the rack need to be pulled out to increase the spacing between the placement plates 100 so that the goods can be placed on the rack. When the placement plate 100 to be pulled out is not the placement plate 100 at the highest position, in order to facilitate the pulling out of the placement plate 100, in combination with... Figure 5 As shown, in this embodiment, a T-shaped groove 106 is provided along the length of the opposite side wall of the placement plate 100, and the connecting block 103 is L-shaped, with one end of it extending into the groove 106 for sliding.
[0042] In actual use, the side wall of the connecting block 103 slides against the corresponding side wall of the slide groove 106, so that the connecting block 103 can be slidably installed in the slide groove 106. When it is necessary to remove the placement plate 100, the mounting bolt 104 is unscrewed out of the corresponding mounting hole 105, that is, the fixed connection between the connecting block 103 and the column 101 is released, and the connecting block 103 on one side of the placement plate 100 is slid away from the column 101. At this time, the operator removes the placement plate 100 from the placement rack from the other side of the placement plate 100.
[0043] In actual use, in order to fix the connecting block 103 on the placement plate 100 and make the connection between it and the column 101 more stable, in this embodiment, the bottom wall of the slide 106 is provided with positioning holes 500, and the connecting block 103 is also provided with positioning bolts 107. The positioning bolts 107 are threaded into the positioning holes 500 to realize the fixed installation of the connecting block 103 on the placement plate 100.
[0044] When the positioning bolt 107 is aligned with the positioning hole 500, the mounting bolt 104 is aligned with the mounting hole 105.
[0045] Combination Figures 2-3 As shown, specifically, when it is necessary to fix the placement plate 100 between the opposing columns 101, the sliding connecting block 103 is used so that the side wall of the connecting block 103 can slide against the corresponding side wall of the column 101. When the other end of the connecting block 103 is flush with the corresponding side wall of the column 101, the positioning bolt 107 is aligned with the positioning hole 500. The positioning bolt 107 is screwed into the positioning hole 500, thereby fixing the connecting block 103 on the placement plate 100. Then, the mounting bolt 104 is screwed into the corresponding mounting hole 105, thus completing the fixing of the placement plate 100 between the columns 101.
[0046] Combination Figures 6-7 As shown, in this embodiment, the connector includes a connecting cylinder 108 disposed on one of the mounting blocks 111. The interior of the connecting cylinder 108 is provided with a slot 604 along its length direction. Both ends of the slot 604 are connected to the outside. The front and rear sides of the connecting cylinder 108 are respectively provided with notches communicating with the slot 604 and a first connecting groove 601. The other mounting block 111 is provided with a connecting post 109 that can extend into the connecting cylinder 108. The side wall of the connecting post 109 is provided with a second connecting groove 602 that penetrates the connecting post 109 along its length direction. The connector also includes a connecting bolt 600. The connecting bolt 600 extends into the first connecting groove 601 and the second connecting groove 602. The connecting bolt 600 is provided with a locking nut 603. The locking nut 603 abuts against the side wall of the connecting post 109 to realize the connection between the relative posts 101.
[0047] In actual use, both the connecting cylinder 108 and the connecting post 109 are square, and the side wall of the connecting post 109 slides against the corresponding inner side wall of the connecting cylinder 108. The first connecting groove 601 and the second connecting groove 602 are on the same horizontal line. When it is necessary to adjust the distance between the relative posts 101, the posts 101 are moved so that the connecting post 109 can extend and retract within the connecting cylinder 108, so that the first connecting groove 601 and the second connecting groove 602 can overlap. At this time, the connecting bolt 600 is inserted into the first connecting groove 601 and the second connecting groove 602, so that one end of the connecting bolt 600 can protrude from the first connecting groove 601 on one side wall of the connecting cylinder 108. At this time, the locking nut 603 is tightened so that one end of the locking nut 603 abuts against the side wall of the connecting post 109, thereby making the connecting cylinder 108 and the connecting post 109 better fixed.
[0048] In actual use, one end of the connecting cylinder 108 and the connecting column 109 is fixedly installed on the side wall of the corresponding mounting block 111, so that the connecting cylinder 108 and the connecting column 109 can be installed.
[0049] In summary, the above description is only a preferred embodiment of the present utility model. All equivalent changes and modifications made within the scope of the patent application of the present utility model shall fall within the scope of the patent of the present utility model.
Claims
1. A storage goods shelf comprising a plurality of shelf units which can be mutually spliced, characterized in that: The frame unit includes multiple uprights (101) arranged opposite each other, and the opposing uprights (101) are connected by connectors; the multiple uprights (101) are provided with a liftable placement plate (100) through the mounting parts, and the placement plate (100) is used to place goods; the uprights (101) have a mounting cavity (110) with an opening at the lower end along its height direction, and a mounting block (111) is provided in the mounting cavity (110) with the opening at the lower end. The mounting block (111) has a insertion groove (200) on its lower side along its height direction, and a insertion block (102) is provided at the upper end of the upright (101). The insertion block (102) is inserted into the corresponding insertion groove (200) to realize the splicing between the frame units.
2. A storage goods placement rack according to claim 1, characterized in that: The column (101) has a slot on one side wall that connects to the mounting cavity (110); the mounting block (111) is threaded with a locking bolt (400), which is used to fix the plug block (102) inserted into the plug slot (200).
3. A storage goods placement rack as claimed in claim 1, wherein: On the other side wall of the column (101), there are multiple mounting holes (105) along its height direction. The mounting component includes a connecting block (103). The connecting block (103) is disposed opposite to the side wall of the placement plate (100). The connecting block (103) is provided with mounting bolts (104). The mounting bolts (104) are threaded into the mounting holes (105) at different heights to realize the installation of the placement plate (100) at different height positions of the column (101).
4. A storage goods placement rack according to claim 3, wherein: The side wall opposite the placement plate (100) is provided with a T-shaped groove (106) along its length, and the connecting block (103) is L-shaped, with one end of it extending into the groove (106) and sliding.
5. A storage goods shelf according to claim 4, characterised in that: The bottom wall of the chute (106) is provided with positioning holes (500), and the connecting block (103) is also provided with positioning bolts (107). The positioning bolts (107) are threaded into the positioning holes (500) to achieve the fixed installation of the connecting block (103) on the placement plate (100).
6. A storage goods placement rack according to claim 2, wherein: The connector includes a connecting cylinder (108) on one of the mounting blocks (111) of the relative mounting blocks (111). The interior of the connecting cylinder (108) is provided with a slot (604) along its length direction. The two ends of the slot (604) are connected to the outside. The front and rear sides of the connecting cylinder (108) are respectively provided with a notch and a first connecting groove (601) communicating with the slot (604). The other mounting block (111) is provided with a connecting post (109) that can extend into the connecting cylinder (108). The side wall of the connecting post (109) is provided with a second connecting groove (602) that penetrates the connecting post (109) along its length direction. The connector also includes a connecting bolt (600). The connecting bolt (600) extends into the first connecting groove (601) and the second connecting groove (602). The connecting bolt (600) is provided with a locking nut (603). The locking nut (603) abuts against the side wall of the connecting post (109) to realize the connection between the relative posts (101).
7. A storage goods shelf according to claim 6, characterised in that: Both the connecting cylinder (108) and the connecting column (109) are square, and the side wall of the connecting column (109) slides against the corresponding inner side wall of the connecting cylinder (108).