Simple container shelf assembly
By designing guide plates, front connectors, and rear connectors, the problem of automatic replenishment in existing technologies has been solved, realizing automatic replenishment, reducing production costs, improving support strength, and simplifying production processes.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHONGSHAN HENGERGANG TECHNOLOGY CO LTD
- Filing Date
- 2025-07-29
- Publication Date
- 2026-07-07
AI Technical Summary
Existing shelving structures offer high structural strength but also have high production costs and cannot be automatically replenished.
It employs multiple parallel guide plates, a front insert crossbeam, and a rear insert crossbeam. The guide plates are equipped with a guiding structure, and the rear insert crossbeam and support crossbeam are equipped with protrusions. The guide plates are tilted to enable automatic replenishment, and the support strength is improved by bending the protruding edges.
It achieves a simple structure and low production cost, while also enabling automatic replenishment, reducing production costs, improving support strength, and simplifying production processes.
Smart Images

Figure CN224461407U_ABST
Abstract
Description
[Technical Field]
[0001] This utility model relates to a container shelf assembly. [Background Technology]
[0002] In shopping malls, supermarkets, and stores, shelves are usually set up to display goods. Shelves are set up on the shelves, and materials are placed on the shelves. Currently, the most common shelves on the market, such as the one with patent number 202321527521.3 and named "a display shelf", include a base frame and multiple support rods. The base frame is a ring frame with multiple crossbeams inside the ring frame. Although this method has high support strength, its production cost is also high. Moreover, when materials are placed, they cannot be automatically replenished. That is, after the previous material is taken away, the next material cannot be automatically replenished. [Utility Model Content]
[0003] The purpose of this invention is to overcome the shortcomings of the existing technology and provide a simple container shelf assembly with a simple structure, low production cost, and automatic replenishment capability.
[0004] To solve the above problems, the present invention adopts the following technical solution:
[0005] A simplified container rack assembly is characterized by: multiple parallel guide plates, a front insert beam, and a rear insert beam. The guide plates are provided with guide parts for guiding the sliding of materials. The front and rear ends of the multiple guide plates are respectively inserted into the front insert beam and the rear insert beam. At least one support beam is provided at the middle of the bottom end of the guide plate. The rear insert beam is provided with a downward protrusion that can press against the container plate. The support beam is provided with a downward protrusion that can press against the container plate. The rear insert beam protrusion is higher than the support beam protrusion so that the guide plates are tilted with the front lower and the rear higher on the container plate.
[0006] The simplified container shelving assembly described above is characterized in that: the rear insert beam protrusion is a bent protruding edge integral with the rear insert crossbeam.
[0007] The simplified container shelving assembly described above is characterized in that: the rear insert beam protrusion is a U-shaped protrusion with the opening facing downwards.
[0008] The simplified container shelving assembly described above is characterized in that: the protrusion of the support beam is a bent protrusion integral with the support crossbeam.
[0009] The simplified container shelving assembly described above is characterized in that: the support beam protrusion is a U-shaped protrusion with the opening facing downwards.
[0010] The simplified container shelving assembly described above is characterized in that: the supporting beam is fixed to the guide plate by a fastener.
[0011] As described above, a simple container rack assembly is characterized in that: the bottom of the supporting crossbeam is provided with a supporting longitudinal beam that intersects with the supporting crossbeam, and the two ends of the supporting longitudinal beam extend to the lower ends of the front insert crossbeam and the rear insert crossbeam, respectively. The supporting longitudinal beam is fixed to the supporting crossbeam, the guide plate, and the rear insert crossbeam by fasteners.
[0012] As described above, a simple container rack assembly is characterized in that: the front and rear ends of the guide plate are respectively provided with a front insertion end and a rear insertion end, the rear insertion crossbeam is provided with a rear insertion groove for the rear insertion end to be inserted, and the front insertion crossbeam is provided with a front insertion groove for the front insertion end to be inserted.
[0013] As described above, a simple container shelf assembly is characterized in that: the front of the front insert crossbeam is provided with a price groove integrally formed with the front insert crossbeam, the front of the price groove is open, and the front insert crossbeam is provided with a vertically extending baffle on the back of the price groove that can block materials.
[0014] As described above, a simple container shelf assembly is characterized in that: the front of the front insert crossbeam is provided with a price groove integrally formed with the front insert crossbeam, the price groove is open at the front, and a clamping groove is provided on the back of the price groove on the front insert crossbeam, and a vertically extending baffle that can block materials is inserted into the clamping groove.
[0015] The beneficial effects of this utility model are as follows: By setting a front insert crossbeam and a rear insert crossbeam, the front insert crossbeam and the rear insert crossbeam not only serve as crossbeams, but also connect multiple guide slides. A supporting crossbeam is set at the middle of the bottom of the guide slide, which can ensure the support strength, reduce material costs, simplify the structure, and reduce production costs. Moreover, the rear insert crossbeam has a rear insert beam protrusion, and the supporting crossbeam has a supporting beam protrusion. The rear insert beam protrusion is higher than the supporting beam protrusion. In this way, the guide slide is inclined at the front and lower at the back on the container, and the materials can be automatically replenished under the action of gravity. The structure is simple and easy to use. [Attached Image Description]
[0016] Figure 1 This is a perspective view of Embodiment 1 of the present utility model;
[0017] Figure 2 This is a front view of Embodiment 1 of the present utility model;
[0018] Figure 3 This is a perspective view of the components in Embodiment 1 of this utility model;
[0019] Figure 4 This is a perspective view of the front-inserted crossbeam of Embodiment 1 of this utility model;
[0020] Figure 5 This is a perspective view of Embodiment 2 of the present invention;
[0021] Figure 6 This is a front view of Embodiment 2 of the present invention;
[0022] Figure 7 This is a perspective view of the front-mounted crossbeam in Embodiment 2 of this utility model;
[0023] Figure 8 This is a perspective view of Embodiment 3 of the present invention;
[0024] Figure 9 This is a front view of Embodiment 3 of the present utility model.
Detailed Implementation Methods
[0025] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments:
[0026] Example 1, as Figures 1 to 4 As shown, a simple shelf assembly for a display case includes multiple parallel guide plates 1, a front connecting beam 2, and a rear connecting beam 3. The guide plates 1 are arranged horizontally and are equipped with guide parts 11 for guiding the sliding of materials. The guide parts 11 are rotatable rollers arranged laterally. The front and rear ends of the multiple guide plates 1 are respectively connected to the front connecting beam 2 and the rear connecting beam 3. After the materials are arranged in a row on the guide plates 3, the materials closest to the consumer, or the outermost materials, are designated as the front, and the materials inside the display case are designated as the rear. The front and rear can also be referred to as the longitudinal direction, the Y-axis direction in the figure, and the transverse direction, the X-axis direction in the figure. At least one support beam 4 is provided at the bottom center of the guide plate 1. The support beam 4 supports the guide plate 1 and prevents the middle of the guide plate 1 from sinking too much. The support beam 4 is fixed to the guide plate 1 by fasteners 6, which are screws. The rear connecting beam 3 is provided with a downward protrusion 31 that can press against the container panel. The support beam 4 is provided with a downward protrusion 41 that can press against the container panel. The rear connecting beam protrusion 31 is higher than the support beam protrusion 41 so that the guide slide 1 is tilted on the container panel 10 with the front lower and the back higher. The container panel is flat. After the shelf assembly is placed on the container panel, the front end is lower and the back end is higher. In this way, after the front material is taken away, the rear material slides to the front end under the action of gravity through the guide roller.
[0027] For ease of production, the rear connecting beam protrusion 31 is a bent protrusion integral with the rear connecting crossbeam 3. This bent protrusion not only provides support but also enhances the support strength and bending resistance of the rear connecting beam protrusion 31. The rear connecting beam protrusion 31 is a U-shaped protrusion with its opening facing downwards. Similarly, the support beam protrusion 41 is a bent protrusion integral with the support crossbeam 4. This bent protrusion not only provides support but also enhances the support strength and bending resistance of the support crossbeam 4. The support beam protrusion 41 is a U-shaped protrusion with its opening facing downwards.
[0028] For easy insertion, the front and rear ends of the guide plate 1 are respectively provided with a front insertion end 12 and a rear insertion end 13. The rear insertion crossbeam 3 is provided with a rear insertion groove 32 for the rear insertion end 13 to be inserted. The rear insertion groove 32 extends laterally. For a firm insertion, the opening edge of the rear insertion groove 32 is provided with a hook. The rear insertion end 13 is provided with a groove for the hook to be inserted. The front insertion crossbeam 2 is provided with a front insertion groove 21 for the front insertion end 12 to be inserted. The front insertion groove 21 extends laterally.
[0029] The front of the front connecting beam 2 is provided with a price strip groove 22 integrally formed with the front connecting beam 2. The price strip groove 22 is open at the front and price strips are inserted into the strip groove 22 to display the price of the goods. The front connecting beam 2 has a vertically extending baffle 23 on the back of the price strip groove 22 to block the material. The baffle 23 is integrally formed with the connecting beam 2 to prevent the material from tipping forward. By setting the baffle 23 and the price strip groove 22, the support strength and bending resistance of the front connecting beam 2 can be improved.
[0030] Example 2, as Figure 5-7 As shown, the difference from Embodiment 1 is that the structure for blocking the material on the front side is different. Specifically, the front insert crossbeam 2 has a price groove 22 integrally formed with the front insert crossbeam 2. The price groove 22 is open on the front side. The front insert crossbeam 2 has a clamping groove 24 on the back of the price groove 22. A vertically extending baffle 25 that can block the material is inserted into the clamping groove 24. The baffle 25 can be removed and replaced with baffles 25 of different heights to adapt to materials of different heights.
[0031] Example 3, as Figure 8-9 As shown, the difference from Embodiment 2 is that a reinforcing support is also provided at the bottom. Specifically, the bottom of the supporting crossbeam 4 is provided with a supporting longitudinal beam 5 that intersects with the supporting crossbeam 4. The two ends of the supporting longitudinal beam 5 extend to the lower ends of the front insert crossbeam 2 and the rear insert crossbeam 3, respectively. The supporting longitudinal beam 5 is fixed to the supporting crossbeam 4, the guide plate 1, and the rear insert crossbeam 3 by multiple fasteners 6. The fasteners 6 are screws. The fasteners 6 pass through the supporting crossbeam 4 and are fixed to the guide plate 1. The front end of the supporting crossbeam 4 is fixed to the guide plate 1 by screws, and the rear end of the supporting crossbeam 4 is fixed to the rear insert crossbeam 3 by screws. The structure is simple, easy to install, and improves the support strength.
[0032] The above description, in conjunction with specific preferred technical solutions, provides a further detailed explanation of this utility model. It should not be construed that the specific implementation of this utility model is limited to these descriptions. For those skilled in the art, various simple deductions or substitutions can be made without departing from the concept of this utility model, and all such modifications or substitutions should be considered within the scope of protection of this utility model.
Claims
1. A simplified container shelving assembly, characterized in that: Multiple parallel guide plates (1), front insert crossbeams (2) and rear insert crossbeams (3) are provided. The guide plates (1) are provided with guide parts (11) for guiding the sliding of materials. The front and rear ends of the multiple guide plates (1) are respectively inserted into the front insert crossbeams (2) and the rear insert crossbeams (3). At least one support crossbeam (4) is provided at the middle of the bottom end of the guide plates (1). The rear insert crossbeam (3) is provided with a rear insert beam protrusion (31) that protrudes downward and can press against the container plate. The support crossbeam (4) is provided with a support beam protrusion (41) that protrudes downward and can press against the container plate. The rear insert beam protrusion (31) is higher than the support beam protrusion (41) so that the guide plates (1) are tilted with the front lower and the rear higher on the container plate.
2. The simplified container shelving assembly according to claim 1, characterized in that: The rear insert beam protrusion (31) is a bent protrusion that is integral with the rear insert crossbeam (3).
3. The simplified container shelving assembly according to claim 2, characterized in that: The rear insert beam protrusion (31) is a U-shaped protrusion with the opening facing downwards.
4. The simplified container shelving assembly according to claim 1, characterized in that: The support beam protrusion (41) is a bent protrusion that is integral with the support beam (4).
5. The simplified container shelving assembly according to claim 4, characterized in that: The support beam protrusion (41) is a U-shaped protrusion with the opening facing downwards.
6. The simplified container shelving assembly according to claim 1, characterized in that: The supporting beam (4) is fixed to the guide plate (1) by a fastener (6).
7. The simplified container shelving assembly according to claim 1, characterized in that: The bottom of the supporting crossbeam (4) is provided with multiple supporting longitudinal beams (5) that intersect with the supporting crossbeam (4). The two ends of the supporting longitudinal beams (5) extend to the lower ends of the front insert crossbeam (2) and the rear insert crossbeam (3), respectively. The supporting longitudinal beams (5) are fixed to the supporting crossbeam (4), the guide plate (1), and the rear insert crossbeam (3) by fasteners (6).
8. The simplified container shelving assembly according to claim 1, characterized in that: The guide plate (1) has a front insertion end (12) and a rear insertion end (13) at its front and rear ends, respectively. The rear insertion crossbeam (3) has a rear insertion groove (32) for the rear insertion end (13) to be inserted into, and the front insertion crossbeam (2) has a front insertion groove (21) for the front insertion end (12) to be inserted into.
9. The simplified container shelving assembly according to claim 1, characterized in that: The front insert crossbeam (2) has a price groove (22) integrally formed with the front insert crossbeam (2) on its front side. The price groove (22) is open on its front side. The front insert crossbeam (2) has a vertically extending baffle (23) on the back of the price groove (22) that can block the material.
10. A simplified container shelving assembly according to claim 1, characterized in that: The front insert crossbeam (2) has a price groove (22) integrally formed with the front insert crossbeam (2) on its front side. The price groove (22) is open on its front side. The front insert crossbeam (2) has a clamping groove (24) on the back of the price groove (22). A vertically extending baffle (25) that can block materials is inserted into the clamping groove (24).