A motor-driven lifting and transplanting device
The motor-driven lifting and transplanting device uses a linkage shaft and a mechanical synchronizer to achieve synchronized movement of the lifting components and chain components, solving the problem of items falling in traditional devices and improving transportation stability and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIAMEN DEREK INTELLIGENT TECH CO LTD
- Filing Date
- 2025-08-28
- Publication Date
- 2026-07-07
AI Technical Summary
Traditional lifting and transplanting devices lack a synchronization mechanism during the lifting process, which causes the working time and lifting distance of each lifting component to deviate, potentially leading to the item falling.
The lifting and transferring device, driven by an electric motor, ensures the synchronous movement of the lifting components and chain components through a linkage shaft and a mechanical synchronizer. The servo motor drives the sprocket assembly to move the chain, thereby achieving horizontal transport of the goods.
This achieves synchronized movement of items during the lifting process, preventing them from falling and improving the stability and safety of transportation.
Smart Images

Figure CN224466803U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of lifting devices, and specifically relates to a motor-driven lifting and transplanting device. Background Technology
[0002] In automated logistics and production lines, lifting and transferring devices are widely used for material diversion, merging, and reversal. During operation, these devices need to carry and move items. However, traditional lifting and transferring devices lack synchronization mechanisms, which may cause discrepancies in the working time and lifting distance of the various lifting components, resulting in items falling. Summary of the Invention
[0003] The purpose of this invention is to address the aforementioned problems in the existing technology by providing a motor-driven lifting and transplanting device.
[0004] The purpose of this utility model can be achieved through the following technical solution: a motor-driven lifting and transplanting device, including a motor, a motor shaft, a base frame and a support frame vertically connected to the base frame, characterized in that the motor is set on one side of the base frame, the base frame is provided with three mounting platforms, the mounting platforms are provided with transmission components, a linkage shaft is provided between every two adjacent transmission components, the transmission components are equidistantly arranged, and the middle transmission component is connected to the motor shaft;
[0005] The base frame is also equipped with two sets of lifting components arranged in parallel to each other. On both sides of the lifting components are two top rod components for lifting and moving. Between the two top rod components is a linkage shaft for synchronous lifting.
[0006] Above the two lifting components are several chain components for moving the object. Each of the chain components is connected by a linkage shaft that passes through each chain component and enables the chain components to move synchronously.
[0007] In the aforementioned motor-driven lifting and transplanting device, the lifting rod assembly includes two mechanical synchronizers and a lifting device. The lifting device is connected in cooperation with the mechanical synchronizers, and the mechanical synchronizers are respectively connected in cooperation with the two linkage shafts to ensure that the lifting device can maintain synchronous horizontal movement.
[0008] In the aforementioned motor-driven lifting and transplanting device, the chain assembly includes a servo motor for driving a linkage shaft three, multiple sprockets that move synchronously with the linkage shaft three, a sprocket assembly one consisting of three sprockets, a sprocket assembly two consisting of two sprockets, and a chain that cooperates with sprocket assembly one and sprocket assembly two. The sprocket assembly one is used to drive the chain to move. A conveyor platform for carrying and protecting items is provided between the two sprockets in the sprocket assembly two. The chain extends upward from the chain assembly one to surround the conveyor platform.
[0009] Compared with existing technologies, this motor-driven lifting and transplanting device uses multiple linkage rods to ensure that the lifting components and chain components move synchronously, keeping the items level during the lifting process and preventing them from falling. Attached Figure Description
[0010] Figure 1 This is a schematic diagram of the main body of the motor-driven lifting and transplanting device. Figure 1 ;
[0011] Figure 2 This is a schematic diagram of the main body of the motor-driven lifting and transplanting device. Figure 2 ;
[0012] Figure 3 This is a bottom view of the motor-driven lifting and transplanting device.
[0013] In the diagram, 1. Motor; 2. Motor shaft; 3. Base frame; 4. Support frame; 5. Mounting platform; 6. Transmission assembly; 7. Linkage shaft one; 8. Lifting assembly; 9. Top rod assembly; 10. Linkage shaft two; 11. Chain assembly; 12. Linkage shaft three; 13. Mechanical synchronizer; 14. Lifting device; 15. Servo motor; 16. Sprocket; 17. Chain; 18. Conveyor table. Detailed Implementation
[0014] The following are specific embodiments of the present invention, which are described in conjunction with the accompanying drawings. However, the present invention is not limited to these embodiments.
[0015] like Figure 1 , Figure 2 , Figure 3 As shown, the lifting and transplanting device driven by the motor 1 includes a motor 1, a motor shaft 2, a base frame 3, and a support frame 4 that is vertically connected to the base frame 3. The motor 1 is set on one side of the base frame 3. Three mounting platforms 5 are set on the base frame 3. Transmission components 6 are set on the mounting platforms 5. A linkage shaft 7 is set between every two adjacent transmission components 6. The transmission components 6 are equidistantly arranged, and the middle transmission component 6 is connected to the motor shaft 2.
[0016] The base frame 3 is also equipped with two sets of lifting components 8 arranged in parallel to each other. On both sides of the lifting components 8 are two top rod components 9 for lifting and moving. Between the two top rod components 9 is a linkage shaft 10 for linkage and synchronous lifting.
[0017] Above the two lifting components 8, there are several chain components 11 for moving objects. Each of the chain components 11 is connected by a linkage shaft 12 that passes through each chain component 11 and can make the chain components 11 move synchronously.
[0018] The top rod assembly 9 includes two mechanical synchronizers 13 and a lifting device 14. The lifting device 14 is connected to the mechanical synchronizers 13, and the mechanical synchronizers 13 are connected to the linkage shaft 10 to ensure that the lifting device 14 can maintain synchronous horizontal movement.
[0019] The chain assembly 11 includes a servo motor 15 for driving the linkage shaft 3 12, multiple sprockets 16 that move synchronously with the linkage shaft 3 12, a sprocket assembly 1 consisting of three sprockets 16, a sprocket assembly 2 consisting of two sprockets 16, and a chain 17 that cooperates with the sprocket assembly 1 and the sprocket assembly 2. The sprocket assembly 1 is used to drive the chain 17 to move. A conveyor platform 18 for carrying and protecting items is provided between the two sprockets 16 in the sprocket assembly 2. The chain 17 extends upward from the chain assembly 11 to surround the conveyor platform 18.
[0020] During use, the motor 1 drives the transmission component 6 connected to it. The transmission component 6 drives the two adjacent transmission components 6 to operate through the linkage rod 1, and at the same time drives the linkage rod 2 to rotate, so that the lifting component 8 operates at the same time to achieve synchronization.
[0021] After the servo motor starts, it drives the sprocket assembly to rotate, and the sprocket assembly drives the chain 17 to move to achieve the purpose of transporting goods.
[0022] The specific embodiments described herein are merely illustrative examples illustrating the spirit of this utility model. Those skilled in the art to which this utility model pertains may make various modifications or additions to the described specific embodiments or use similar methods to substitute them, without departing from the spirit of this utility model or exceeding the scope defined by the appended claims.
[0023] Although this document frequently uses terms such as motor 1, motor shaft 2, base frame 3, support frame 4, mounting platform 5, transmission assembly 6, linkage shaft one 7, lifting assembly 8, top rod assembly 9, linkage shaft two 10, chain assembly 11, linkage shaft three 12, mechanical synchronizer 13, lifting device 14, servo motor 15, sprocket 16, chain 17, and conveyor 18, the possibility of using other terms is not excluded. These terms are used merely for the convenience of describing and explaining the essence of this utility model; interpreting them as any additional limitation would contradict the spirit of this utility model.
Claims
1. A motor-driven lifting and transplanting device, comprising a motor (1), a motor shaft (2), a base frame (3), and a support frame (4) vertically connected to the base frame (3), characterized in that, The motor (1) is mounted on one side of the base frame (3). The base frame (3) is provided with three mounting platforms (5). The mounting platforms (5) are provided with transmission components (6). A linkage shaft (7) is provided between every two adjacent transmission components (6). The transmission components (6) are equidistantly arranged, and the middle transmission component (6) is connected to the motor shaft (2). The base frame (3) is also provided with two sets of lifting components (8) arranged in parallel to each other. On both sides of the lifting components (8) are two top rod components (9) for lifting and moving. Between the two top rod components (9) is a linkage shaft two (10) for linkage and synchronous lifting. Above the two lifting components (8) are several chain components (11) for moving objects. Each of the chain components (11) is provided with a linkage shaft (12) that passes through each chain component (11) and enables the chain components (11) to move synchronously.
2. The motor-driven lifting and transplanting device according to claim 1, characterized in that, The top rod assembly (9) includes two mechanical synchronizers (13) and a lifting device (14). The lifting device (14) is connected to the mechanical synchronizers (13), and the mechanical synchronizers (13) are connected to the linkage shaft (10) to ensure that the lifting device (14) can maintain synchronous horizontal movement.
3. The motor-driven lifting and transplanting device according to claim 1, characterized in that, The chain assembly (11) includes a servo motor (15) for driving the linkage shaft three (12), multiple sprockets (16) that move synchronously with the linkage shaft three (12), a sprocket assembly one consisting of three sprockets (16), a sprocket assembly two consisting of two sprockets (16), and a chain (17) that cooperates with the sprocket assembly one and the sprocket assembly two. The sprocket assembly one is used to drive the chain (17) to move. A conveyor platform (18) for carrying and protecting items is provided between the two sprockets (16) in the sprocket assembly two. The chain (17) extends upward from the chain assembly (11) one to surround the conveyor platform (18).