Chute for stacking articles

The design of the chute stacking device solves the problem of high cost in automated warehouses, realizes efficient cargo transportation and stacking in express logistics sorting centers, reduces costs and improves logistics operation efficiency and cargo integrity.

CN224324556UActive Publication Date: 2026-06-05BERMAN MACHINERY MANUFACTURING (TAICANG) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BERMAN MACHINERY MANUFACTURING (TAICANG) CO LTD
Filing Date
2025-06-19
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The construction and maintenance costs of existing automated warehouses are high, making it difficult to meet the needs of express logistics sorting centers for fast in-and-out and high turnover.

Method used

The chute stacking device, which includes components such as a wide belt conveyor, a stacking and pushing device, photoelectric sensors, and rubber curtains, enables efficient transportation and stacking of goods, reduces impact, and improves the integrity of goods.

Benefits of technology

It enables efficient transport and stacking of goods, reduces construction and maintenance costs, improves logistics efficiency, and reduces the risk of cargo damage.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224324556U_ABST
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Abstract

The utility model relates to a logistics sorting equipment technical field, and specifically is a kind of chute goods stacking device. The left and right sides of wide belt conveyor are provided with baffle, and the inlet side of wide belt conveyor is provided with stacking and pushing device, and the stacking and pushing device includes fixed telescopic slide, and telescopic slide is composed of outer slide plate with inside fixed plate lower end sleeve, and the longitudinal part middle section of fixed rack is equipped with electric push rod, and the one end of the horizontal part of fixed rack is movably connected with the one end of inside fixed plate and compression spring, and the other side of compression spring is connected with outer slide plate, and electric push rod is connected with outer slide plate, and the bottom of outer slide plate is provided with roller, and telescopic slide is arranged perpendicularly to wide belt conveyor and rotates in the baffle of both sides, and roller moves against the horizontal direction of the belt of wide belt conveyor, compared with prior art, efficient conveying and stacking of goods are realized, the efficiency of logistics operation is improved, the impact force of goods in conveying and stacking process is reduced, and the integrity and quality of goods are improved.
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Description

Technical Field

[0001] This utility model relates to the field of logistics sorting equipment technology, specifically a chute stacking device. Background Technology

[0002] In some express delivery and logistics sorting centers, storage areas are needed for the temporary storage of goods awaiting sorting or customs inspection. These storage areas are characterized by high turnover rates and large throughput per unit time. Currently, for automated storage and retrieval systems (AS / RS), only multi-level shuttle AS / RS can meet the needs of such sorting centers, but their construction and maintenance costs are high. There is a need to research equipment that can meet the requirements of fast in-and-out and high throughput per unit time for express delivery and logistics storage areas, while also reducing construction and maintenance costs. Utility Model Content

[0003] To address the problems mentioned in the background art, this utility model provides a chute stacking device, including a wide belt conveyor and a stacking pushing device. The wide belt conveyor has baffles on both sides, and a stacking pushing device is located at the inlet side of the wide belt conveyor. The stacking pushing device includes a fixed frame, a telescopic sliding plate, a compression spring, and an electric push rod. The fixed frame includes a longitudinal section and a transverse section. The telescopic sliding plate consists of an inner fixed plate with an outer sliding plate fitted onto its lower end. An electric push rod is located in the middle section of the longitudinal section of the fixed frame. One end of the transverse section of the fixed frame is movably connected to one end of the inner fixed plate and one end of the compression spring. The compression spring is located on both sides of the inner fixed plate, and the other side of the compression spring is connected to the outer sliding plate. The electric push rod is connected to the outer sliding plate, and rollers are located at the bottom of the outer sliding plate. The telescopic sliding plate is set perpendicular to the wide belt conveyor and rotates within the baffles on both sides. The rollers move horizontally against the belt of the wide belt conveyor. A rubber curtain is located at the outlet side of the stacking pushing device, and the rubber curtain is fixed to the upper end of the baffles on both sides. A photoelectric sensor is located on the baffle above the rubber curtain.

[0004] The wide belt conveyor is provided with a transition plate on the outlet side, which is connected to one side of the outlet belt conveyor. The outlet belt conveyor is perpendicular to the wide belt conveyor and is arranged in a T-shape.

[0005] The fixed frame has a supply belt conveyor at the upper end of the horizontal part. One end of the supply belt conveyor is located between the two side baffles of the wide belt conveyor. The supply belt conveyor has inclined sliding baffles on both sides and an inclined sliding groove on the supply belt conveyor. The top of the fixed frame is connected to the lower end of the inclined sliding groove.

[0006] An inlet belt conveyor is provided on the inlet side of the inclined chute. The inlet belt conveyor is set perpendicular to the inclined chute, and a swing wheel sorting machine is provided on the inlet belt conveyor.

[0007] The telescopic sliding plate has a rotation angle of 0°-55°.

[0008] Compared with the prior art, this utility model realizes efficient transportation and stacking of goods, improves the efficiency of logistics operations, reduces the impact force on goods during transportation and stacking, reduces the risk of damage to goods, and improves the integrity and quality of goods. Attached Figure Description

[0009] Figure 1 This is a schematic diagram of the chute stacking device.

[0010] Figure 2 This is a schematic diagram of the stacking and pushing device structure;

[0011] Figure 3 This is a top view of the chute stacking device;

[0012] Figure 4 This is a schematic diagram of the operation of the chute stacking device;

[0013] See Figure 1 1. Wide belt conveyor; 2. Slide stacking device; 3. Fixed frame; 4. Telescopic slide plate; 5. Compression spring; 6. Electric push rod; 7. Inner fixed plate; 8. Outer sliding plate; 9. Roller; 10. Rubber curtain; 11. Photoelectric sensor; 12. Supply belt conveyor; 13. Inclined chute; 14. Inlet belt conveyor; 15. Swing wheel sorter; 16. Transition plate; 17. Outlet belt conveyor; 18. Baffle. Detailed Implementation

[0014] The present invention will be further described below with reference to the accompanying drawings.

[0015] like Figures 1 to 3A chute stacking device includes a wide belt conveyor 1 and a stacking and pushing device 2. The wide belt conveyor 1 has baffles 18 on its left and right sides. The stacking and pushing device 2 is located at the inlet side of the wide belt conveyor 1. The stacking and pushing device 2 includes a fixed frame 3, a telescopic slide plate 4, a compression spring 5, and an electric push rod 6. The fixed frame 1 includes a longitudinal part and a transverse part. The telescopic slide plate 4 is composed of an inner fixed plate 7 with an outer sliding plate 8 fitted at the lower end. The electric push rod 6 is located in the middle section of the longitudinal part of the fixed frame 1. One end of the transverse part of the fixed frame 1 is movably connected to one end of the inner fixed plate 7 and the compression spring 5. The compression spring 5 is located on both sides of the inner fixed plate 7. The other side of the compression spring 5 is connected to the outer sliding plate 8. The elastic force of the compression spring 5 is used to stabilize and buffer the outer sliding plate 8. The electric push rod 6 is connected to the outer sliding plate 8. The bottom of the outer sliding plate 8 is equipped with rollers 9. The telescopic slide plate 4 is set perpendicular to the wide belt conveyor 1 and rotates inside the baffles 18 on both sides. The rollers 9 move horizontally against the belt of the wide belt conveyor 1. The outlet side of the stacking and pushing device 2 is equipped with a rubber curtain 10. The rubber curtain 10 is fixed to the upper end of the baffles 18 on both sides and can play a role in buffering and blocking. The baffles 18 are equipped with photoelectric sensors 11 at the upper end of the rubber curtain 10 to detect the passage of goods and realize automatic control.

[0016] The wide belt conveyor 1 is provided with a transition plate 16 on the outlet side. The transition plate 16 is connected to one side of the outlet belt conveyor 17. The outlet belt conveyor 17 is perpendicular to the wide belt conveyor 1 and is arranged in a T-shape, which facilitates the subsequent transportation and turning of goods.

[0017] The upper end of the horizontal part of the fixed frame 3 is provided with a supply belt conveyor 12. One end of the supply belt conveyor 12 is located between the two side baffles 18 of the wide belt conveyor 1. The two sides of the supply belt conveyor 12 are provided with inclined sliding baffles. The supply belt conveyor is provided with an inclined sliding groove 13. The top end of the vertical part of the fixed frame 3 is connected to the lower end of the inclined sliding groove 13.

[0018] An inlet belt conveyor 14 is provided on the inlet side of the inclined chute 13. The inlet belt conveyor 14 is set perpendicular to the inclined chute 13. A swing wheel sorter 15 is provided on the inlet belt conveyor 14 to sort and organize the goods, ensuring that the goods enter the inclined chute 13 in an orderly manner.

[0019] The telescopic skateboard 4 has a rotation angle of 0°-55°.

[0020] like Figure 4During operation, goods are conveyed to the inclined chute 13 via the inlet belt conveyor 14, and the swing wheel sorter 15 sorts and organizes the goods. When the photoelectric sensor 11 detects that the wide belt conveyor 1 is empty, the electric push rod 6 extends to its maximum length. The fixed slide plate rotates 55° under the push of the electric push rod, and the telescopic slide plate extends under the action of the spring. The roller 9 moves horizontally against the belt of the wide belt conveyor 1, and the goods slide along the inclined chute 13 into the supply belt conveyor 12. The supply belt conveyor 12 transports the goods onto the wide belt conveyor 1, and the goods begin to accumulate. When the photoelectric sensor 11 detects that the position is full, the supply belt conveyor 12 stops running. Then, the electric push rod 6 retracts, and the telescopic slide plate 4 rotates to a vertical position under the pull of the electric push rod. Finally, all the goods fall onto the wide belt conveyor. At this time, the photoelectric sensor 11 detects that the position is not full, and the supply belt conveyor 12 continues to supply parts until the photoelectric sensor 11 detects that the position is full and stops. Only then does the wide belt conveyor 1 move forward one station, the electric push rod 6 extends, and the next cycle begins. Finally, the goods are conveyed via wide belt conveyor 1 from transition plate 16 to exit belt conveyor 17 to continue subsequent conveying tasks.

Claims

1. A chute stacking device, comprising a wide belt conveyor (1) and a stacking and pushing device (2), characterized in that: The wide belt conveyor (1) is provided with baffles (18) on both the left and right sides. The wide belt conveyor (1) is provided with a stacking and pushing device (2) at the inlet side. The stacking and pushing device (2) includes a fixed frame (3), a telescopic slide plate (4), a compression spring (5), and an electric push rod (6). The fixed frame (3) includes a longitudinal part and a transverse part. The telescopic slide plate (4) is composed of an inner fixed plate (7) with an outer sliding plate (8) fitted at the lower end. An electric push rod (6) is provided in the middle section of the longitudinal part of the fixed frame (3). One end of the transverse part of the fixed frame (3) is movably connected to one end of the inner fixed plate (7) and the compression spring (5). (5) Located on both sides of the inner fixed plate (7), the other side of the compression spring (5) is connected to the outer sliding plate (8), the electric push rod (6) is connected to the outer sliding plate (8), the bottom of the outer sliding plate (8) is provided with rollers (9), the telescopic slide plate (4) is set perpendicular to the wide belt conveyor (1) and rotates inside the two side baffles (18), the rollers (9) move horizontally against the belt of the wide belt conveyor (1), the stacking push device (2) is provided with a rubber curtain (10) on the outlet side, the rubber curtain (10) is fixed on the upper end of the two side baffles (18), and a photoelectric sensor (11) is provided on the baffle (18) above the rubber curtain (10).

2. The chute stacking device according to claim 1, characterized in that: The wide belt conveyor (1) is provided with a transition plate (16) on the outlet side. The transition plate (16) is connected to one side of the outlet belt conveyor (17). The outlet belt conveyor (17) is perpendicular to the wide belt conveyor (1) and is arranged in a T-shape.

3. The chute stacking device according to claim 1, characterized in that: The fixed frame (3) is provided with a supply belt conveyor (12) at the upper end of the horizontal part. One end of the supply belt conveyor (12) is located between the two side baffles (18) of the wide belt conveyor (1). The supply belt conveyor (12) is provided with inclined sliding baffles on both sides. The supply belt conveyor is provided with an inclined sliding groove (13). The top end of the vertical part of the fixed frame (3) is connected to the lower end of the inclined sliding groove (13).

4. A chute stacking device according to claim 3, characterized in that: An inlet belt conveyor (14) is provided on the inlet side of the inclined chute (13). The inlet belt conveyor (14) is perpendicular to the inclined chute (13), and a swing wheel sorting machine (15) is provided on the inlet belt conveyor (14).

5. A chute stacking device according to claim 1, characterized in that: The telescopic sliding plate (4) has a rotation angle of 0°-55°.