A new type of warehousing machine

By designing a new type of warehousing machine, utilizing structures such as telescopic conveyors, chassis, and rotary conveyors, the safety and stability issues of the warehousing machine during the lifting process are solved, adapting to different terrains, shortening the equipment height, and reducing storage difficulty and cost.

CN224429468UActive Publication Date: 2026-06-30LIAONING ENDURANCE MASCH CO LTD +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
LIAONING ENDURANCE MASCH CO LTD
Filing Date
2025-07-24
Publication Date
2026-06-30

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  • Figure CN224429468U_ABST
    Figure CN224429468U_ABST
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Abstract

This utility model belongs to the field of warehouse replenishment machine technology and discloses a novel warehouse entry machine, including a telescopic conveyor and a chassis. The chassis is rotatably connected to a balance arm and a main arm. The balance arm and the main arm are rotatably connected to a conveyor vehicle. The chassis is rotatably connected to a hydraulic cylinder. The output end of the hydraulic cylinder is rotatably connected to the main arm. The conveyor vehicle is slidably connected to the telescopic conveyor. The telescopic conveyor is rotatably connected to a rotary conveyor. The chassis is equipped with solid driven wheels. The chassis is connected to a rotary wheel. The rotary wheel is connected to a track drive system. This solution improves operational stability through the linkage of the balance arm and the hydraulic cylinder, optimizes the telescopic adjustment of the chute structure, and solves the storage problem through the storage cavity, achieving a synergistic improvement in safety performance, operational flexibility, and storage convenience.
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Description

Technical Field

[0001] This utility model relates to the field of replenishment machine technology, and in particular to a novel inlet machine. Background Technology

[0002] Replenishment machines are widely used in the grain storage field for bulk grain loading into warehouses, solving the problem of grain loading into large shallow round grain silos.

[0003] However, through exploration, the inventors have discovered that the existing technical solutions still have at least the following defects:

[0004] 1. Existing technologies have poor safety performance and insufficient operational stability during the lifting process, posing significant safety hazards; their lifting systems have a high failure rate, frequently affecting the normal operation progress.

[0005] 2. Regarding equipment storage, the overall height of the equipment often exceeds the net height limit of conventional warehouses, making it difficult to store the equipment smoothly. This not only increases the difficulty of selecting storage space, but may also require additional open-air space or customized high-specification storage space, thus increasing storage costs. Utility Model Content

[0006] The present invention aims to provide a novel warehousing machine to solve the problems mentioned in the background art.

[0007] To achieve the above objectives, this utility model provides the following technical solution:

[0008] A novel warehousing machine includes a telescopic conveyor and a chassis. The chassis is rotatably connected to a counterweight arm and a main arm. The counterweight arm and the main arm are rotatably connected to a conveyor vehicle. The chassis is rotatably connected to a hydraulic cylinder. The output end of the hydraulic cylinder is rotatably connected to the main arm. The conveyor vehicle is slidably connected to the telescopic conveyor. The telescopic conveyor is rotatably connected to a rotary conveyor. The chassis is equipped with solid driven wheels. The chassis is connected to a rotary disc. The rotary disc is connected to a track drive system.

[0009] Preferably, the telescopic conveyor is internally equipped with a main roller, an auxiliary roller, and a counter-axis, all of which are rotatably connected to the telescopic conveyor. The telescopic conveyor is also equipped with a tensioner.

[0010] Preferably, the rotary conveyor is provided with a first connecting wheel and a second connecting wheel at both ends, and the first connecting wheel and the second connecting wheel are connected to the main roller, the auxiliary roller and the anti-axis rod by steel wire.

[0011] Preferably, a chute is provided on the inner side of the bottom of the conveyor vehicle, and the conveyor vehicle is slidably connected to the telescopic conveyor through the chute.

[0012] Preferably, the telescopic conveyor is provided with a receiving cavity.

[0013] The beneficial effects of this technical solution compared to existing technologies are as follows:

[0014] (1) By setting up a telescopic conveyor and chassis, and cooperating with the linkage structure of the balance arm, main arm and hydraulic cylinder, the hydraulic cylinder can stably drive the main arm to adjust the lifting and lowering, the balance arm can effectively balance the force on the conveyor vehicle, and improve the stability and safety performance of the equipment when it is raised during operation; the rotation connection between the rotary conveyor and the telescopic conveyor can flexibly adjust the conveying angle to adapt to different warehouse entry position requirements; the solid driven wheels on the chassis enhance the support stability, and the rotary wheel and the track drive system cooperate to enable the equipment to flexibly adapt to various terrains and improve the operational mobility.

[0015] (2) The conveyor is slidably connected to the telescopic conveyor through the chute on the inner side of the bottom. The chute structure can guide the telescopic conveyor to slide smoothly along a fixed track, reduce the frictional resistance during the sliding process, make the telescopic conveyor extension adjustment smoother, and make it easier to flexibly adjust the conveying length according to the warehouse entry distance, thus improving the ease of operation.

[0016] (3) The telescopic conveyor is equipped with a storage cavity, which can store components such as the rotary conveyor when the equipment is not in operation, effectively shortening the overall length and height of the equipment, solving the problem that traditional equipment is difficult to store due to its high frame, saving storage space and reducing storage difficulty. Attached Figure Description

[0017] Figure 1 Elevation view of the present utility model during operation;

[0018] Figure 2 An elevation view of the storage state provided by this utility model;

[0019] Reference numerals: 1. Telescopic conveyor; 2. Rotary conveyor; 3. Main drum; 4. Auxiliary drum; 5. Reverse shaft; 6. Conveyor vehicle; 7. Counterweight boom; 8. Main boom; 9. Hydraulic cylinder; 10. Chassis; 11. Rotary wheel; 12. Track drive system; 13. Solid driven wheel; 14. First connecting wheel; 15. Second connecting wheel; 16. Belt tensioner; 17. Storage cavity; 18. Chute; Detailed Implementation

[0020] The present invention will now be described in further detail with reference to the accompanying drawings and embodiments:

[0021] like Figures 1 to 2 The novel warehousing machine shown includes a telescopic conveyor 1 and a chassis 10, such as Figure 1The chassis 10 is rotatably connected to a balance arm 7 and a main arm 8. The top of the balance arm 7 and the main arm 8 are rotatably connected to a conveyor 6. The chassis 10 is rotatably connected to a hydraulic cylinder 9. The output end of the hydraulic cylinder 9 is rotatably connected to the middle of the main arm 8. The extension and retraction of the hydraulic cylinder 9 can drive the main arm 8 to adjust its height, thereby realizing the overall lifting function of the telescopic conveyor 1. The conveyor 6 is slidably connected to the telescopic conveyor 1. The left side of the telescopic conveyor 1 is rotatably connected to a rotary conveyor 2, which can flexibly adjust the conveying angle. A solid driven wheel 13 is provided on the left side of the chassis 10 to enhance the support stability. A rotary wheel 11 is connected to the bottom of the chassis 10. The bottom of the rotary wheel 11 is connected to a track drive system 12, which enables the equipment to rotate flexibly and increases the working range of the device.

[0022] like Figure 1 As shown, the telescopic conveyor 1 is equipped with a main roller 3, an auxiliary roller 4 and a counter-axis rod 5 that are rotatably connected to the telescopic conveyor 1, and a tensioner 16 is provided at the left end of the telescopic conveyor 1.

[0023] like Figure 1 As shown, the rotary conveyor 2 is provided with a first connecting wheel 14 and a second connecting wheel 15 at both ends. The first connecting wheel 14 and the second connecting wheel 15 are connected to the main roller 3, the auxiliary roller 4 and the anti-shaft rod 5 through steel wires to realize power transmission and conveyor belt tensioning.

[0024] The conveyor 6 has a chute 18 on the inner side of its bottom. The conveyor 6 is slidably connected to the telescopic conveyor 1 through the chute 18, which can guide the telescopic conveyor 1 to slide smoothly along a fixed track, and make it easy to flexibly adjust the overall length of the whole device according to the warehouse entry distance.

[0025] The telescopic conveyor 1 has a storage cavity 17 on its left side, which can store components such as the rotary conveyor 2 when the equipment is not in operation, effectively shortening the overall length and height of the equipment and solving the storage problem.

[0026] The specific implementation process is as follows:

[0027] During operation, the track drive system 12 is activated to move the chassis 10 to the work point, and the rotary wheel 11 allows the entire machine to flexibly turn and position itself. By controlling the extension and retraction of the hydraulic cylinder 9, the main arm 8 is driven to rotate and rise around the chassis 10. The counterweight arm 7 moves in coordination to ensure the smooth lifting and lowering of the conveyor 6, thereby driving the entire conveying system to the required height. The chute 18 at the bottom of the conveyor 6 slides in cooperation with the telescopic conveyor 1. According to the required inlet distance, the telescopic conveyor 1 can slide within the chute 18 to flexibly adjust its extension length. The rotary conveyor 2 can rotate around its connection point with the telescopic conveyor 1 to adjust the discharge angle and accurately align with the bin opening. The power for grain conveying is transmitted to the conveyor belt through the main roller 3, the auxiliary roller 4, and the anti-axis rod 5. The tensioner 16 is used to maintain the tension of the conveyor belt. The power of the rotary conveyor 2 is transmitted and tensioned through the first connecting wheel 14 and the second connecting wheel 15 at both ends, which are connected to the main roller 3, the auxiliary roller 4, and the anti-axis rod 5 via steel wires. After the work is completed and the equipment needs to be stored, the telescopic conveyor 1 is retracted, and the rotary conveyor 2 is rotated and folded into the storage cavity 17 at the end of the telescopic conveyor 1, significantly reducing the overall height of the equipment and allowing it to be easily stored in a conventional warehouse. The solid driven wheels 13 provide stable auxiliary support during movement and operation.

[0028] The above descriptions are merely embodiments of this utility model. Commonly known technical solutions and / or characteristics are not described in detail here. It should be noted that those skilled in the art can make various modifications and improvements without departing from the technical solution of this utility model. These modifications and improvements should also be considered within the scope of protection of this utility model, and will not affect the effectiveness of the implementation of this utility model or the practicality of the patent. The scope of protection claimed in this application should be determined by the content of its claims, and the specific embodiments described in the specification can be used to interpret the content of the claims.

Claims

1. A novel warehousing machine characterized by: The system includes a telescopic conveyor (1) and a chassis (10). The chassis (10) is rotatably connected to a counterweight arm (7) and a main arm (8). The counterweight arm (7) and the main arm (8) are rotatably connected to a conveyor vehicle (6). The chassis (10) is rotatably connected to a hydraulic cylinder (9). The output end of the hydraulic cylinder (9) is rotatably connected to the main arm (8). The conveyor vehicle (6) is slidably connected to the telescopic conveyor (1). The telescopic conveyor (1) is rotatably connected to a rotary conveyor (2). The chassis (10) is provided with a solid driven wheel (13). The chassis (10) is connected to a rotary wheel (11). The rotary wheel (11) is connected to a track drive system (12).

2. A new type of warehousing machine as claimed in claim 1, characterized in that: The telescopic conveyor (1) is equipped with a main roller (3), a secondary roller (4) and a reverse shaft (5). The main roller (3), the secondary roller (4) and the reverse shaft (5) are all rotatably connected to the telescopic conveyor (1). The telescopic conveyor (1) is equipped with a tensioner (16).

3. The novel warehousing machine as described in claim 1, characterized in that: The rotary conveyor (2) is provided with a first connecting wheel (14) and a second connecting wheel (15) at both ends. The first connecting wheel (14) and the second connecting wheel (15) are connected to the main drum (3), the auxiliary drum (4) and the anti-shaft rod (5) by steel wire.

4. The novel warehousing machine as described in claim 1, characterized in that: The conveyor (6) has a chute (18) on the inner side of its bottom, and the conveyor (6) is slidably connected to the telescopic conveyor (1) through the chute (18).

5. A novel warehousing machine as described in claim 1, characterized in that: The telescopic conveyor (1) is provided with a receiving cavity (17).