Lifting self-locking device for hanging assembly line
By designing a lifting self-locking device for the suspended production line, and using a lever and lever system to lock the hanging wheels, the problems of large space occupation and hanging wheel detachment of the suspended production line are solved, achieving a more efficient workstation layout and stable lifting.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NINGBO ZHIQIAN INTELLIGENT ENG CO LTD
- Filing Date
- 2025-06-24
- Publication Date
- 2026-06-23
AI Technical Summary
Existing suspended production lines have large workstations that limit the number of workstations, making them unsuitable for installation in low-ceilinged factory buildings. Furthermore, the suspension wheels are prone to detaching during lifting and lowering, affecting processing efficiency.
A lifting self-locking device for a suspended production line was designed. Through a movable track and rotating shaft system, the hanging wheels are automatically locked by the cooperation of levers and levers to prevent them from coming off during the lifting process. The lifting profile is driven by a rodless cylinder.
It optimizes the space utilization of the suspended production line, increases the number of workstations and processing efficiency, is suitable for more factory layouts, and ensures the stability of the suspended wheels during the lifting process.
Smart Images

Figure CN224393752U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a suspended assembly line for sewing operations in the clothing and footwear industry, specifically a lifting and self-locking device for a suspended assembly line. Background Technology
[0002] Patent No. 202223564708.9 discloses an intelligent hanging conveyor device for garment production, including a mounting bracket. The mounting bracket is equipped with a conveying mechanism and a driving mechanism. A hanging mechanism is located on the outer side of the conveying mechanism. The driving mechanism includes a connecting plate, a mounting base, a drive motor, a drive wheel, a drive belt, a photoelectric counter, and a guide rail. By incorporating the driving mechanism, the photoelectric counter counts the garments, and the drive belt, in conjunction with the guide rail, clamps the hanging mechanism and drives it upwards, automating the garment loading process. The conveying mechanism, in conjunction with the driving mechanism, enables intelligent hanging and transport of garments, improving the device's practicality, replacing manual operation, and increasing the overall efficiency of garment processing. The photoelectric counter detects the quantity of garments being processed, facilitating real-time monitoring and management of the garment processing status, thus enhancing the device's intelligence.
[0003] Existing patented intelligent hanging conveyor technology requires the workstation guide rail to extend only from the input end to the output end. The guide rail is arranged horizontally at the bottom of the workstation via a winding, rotating mechanism. This design occupies a large volume of the overall device and also requires space for sewing processing positions. Due to the large space occupied by each workstation, the number of workstations can be limited, thus hindering work efficiency. Furthermore, existing hanging systems have high space requirements, making them unsuitable for installation in many low-ceilinged factory buildings, thus affecting their application. Summary of the Invention
[0004] This utility model addresses the aforementioned technical problems by providing a lifting self-locking device for a hanging production line. It can perform secondary lifting and lowering of the clothes hangers in the workstation, automatically locking the hanging wheels during the lifting process to prevent them from coming off, thus facilitating the delivery of the hanging materials to the sewing station for processing.
[0005] The technical solution adopted by this utility model to solve the above-mentioned technical problems is as follows: a lifting self-locking device for a suspended assembly line, including a first mounting base set on a lifting profile, the first mounting base having a movable track for the suspension wheel to stop on, a first rotating shaft and a second rotating shaft being provided below the first mounting base, one end of the first rotating shaft having a sector gear, and one end of the second rotating shaft having a first gear cooperating with the sector gear; a lever being provided on the first rotating shaft, a return spring being provided on the second rotating shaft, and a first lever and a second lever being provided at the front end of the first mounting base for locking the suspension wheel, the first lever and the second lever being rotatably connected to the second rotating shaft respectively.
[0006] To optimize the above technical solution, the present invention also includes the following improved technical solutions.
[0007] The second rotating shaft is provided with a connecting block at one end, one end of the return spring is connected to the first mounting base, and the other end of the return spring is connected to the connecting block.
[0008] The first lever is rotatably mounted on the front end of the first mounting base via a third rotating shaft, and one end of the first lever is connected to the connecting block via a first crank; the second lever is rotatably mounted on the front end of the first mounting base via a fourth rotating shaft, and one end of the second lever is connected to the connecting block via a second crank.
[0009] One end of the lever is fitted onto the first rotating shaft, and the other end of the lever is equipped with a rotating wheel; a screw for limiting the swing amplitude of the lever is inserted through the lever.
[0010] The aforementioned lifting profile has a first mounting column on one side, which is fixedly connected to the mounting bracket. The lifting profile is equipped with a pulley assembly that moves up and down along the first mounting column, and a rodless cylinder that drives the lifting profile to move up and down is installed inside the first mounting column.
[0011] Compared with the prior art, the lifting self-locking device for a suspended assembly line of this utility model, when the two ends of the movable track are connected to the first and second tracks, the lever contacts the bottom surface of the limiting mounting seat of the limiting device. The lever drives the second rotating shaft to rotate, and the second rotating shaft drives the first and second levers to open outward. At this time, the return spring deforms. During the descent, the angle formed between the lever and the bottom surface of the limiting mounting seat gradually increases until it loses contact. The return spring gradually returns to its original position, and the return spring drives the second rotating shaft to rotate. The first and second levers close inward to lock the suspension wheel and prevent it from moving during the lifting process. Attached Figure Description
[0012] Figure 1 This is a top view of the suspended assembly line.
[0013] Figure 2 This is a 3D structural diagram of the workstation.
[0014] Figure 3 This is a side view of the lifting self-locking device.
[0015] Figure 4 This is a front view of the lifting self-locking device.
[0016] Figure 5 This is a three-dimensional structural diagram of the first mounting base.
[0017] Figure 6 This is a three-dimensional structural diagram of the first mounting base from another perspective. Detailed Implementation
[0018] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings.
[0019] Figures 1 to 6 The diagram shown is a structural schematic of this utility model.
[0020] The attached figures are labeled as follows: main rail 1, first track 2, second track 3, first guide section 3a, lifting section 3b, second guide section 3c, lifting profile 4, first mounting base 5, movable track 6, first rotating shaft 7, second rotating shaft 8, sector gear 9, first gear 10, lever 11, first lever 12, second lever 13, second mounting base 14, connecting block 15, third rotating shaft 16, first crank 17, fourth rotating shaft 18, second crank 19, wheel 20, screw 21, first mounting post 22, mounting bracket 23, pulley assembly 24, rodless cylinder 25, connecting frame 26, limit mounting base 27.
[0021] This utility model discloses a suspended assembly line, comprising a main rail 1 and several workstations distributed inside the main rail 1. Each workstation includes a first track 2 and a second track 3 fixed on a mounting bracket 23. The front end of the first track 2 is equipped with an entry device that connects to the main rail 1, and the rear end of the second track 3 is equipped with an exit device that connects to the main rail 1. A limiting device for restricting the movement of the suspended wheels and a lifting self-locking device for transferring the suspended wheels are provided between the first track 2 and the second track 3. A sewing station is provided below the lifting self-locking device.
[0022] The hanging wheel enters the first track 2 from the main track 1. The limiting device between the first track 2 and the second track 3 restricts the hanging wheel at the lifting self-locking device. The lifting self-locking device drives the hanging wheel downward so that the sewing station can process the descending hanging garment. Subsequently, the lifting self-locking device drives the hanging wheel upward until it connects with the second track 3. The limiting device between the first track 2 and the second track 3 is released, and the hanging wheel enters the second track 3.
[0023] The second track 3 has a first guide section 3a, a lifting section 3b, and a second guide section 3c. A lifting device for lifting the suspended wheel is provided on one side of the lifting section 3b. The suspended wheel enters the second track 3 along the first guide section 3a, and the lifting device transports the suspended wheel upward along the lifting section 3b to the second guide section 3c. Finally, the suspended wheel is output from the second guide section 3c to the main track 1.
[0024] The first track 2 is equipped with one or more limiting devices to restrict the movement of the hanging wheels. These limiting devices control the movement of the hanging wheels on the first track 2, thereby controlling the number of hanging wheels entering the next process. In this embodiment, the first track 2 is equipped with two limiting devices, and the number of limiting devices can be adjusted according to actual conditions.
[0025] The second track 3 is provided with one or more limiting devices for restricting the movement of the hanging wheels. In this embodiment, the second guide section 3c of the second track 3 is provided with a limiting device to control the number of hanging wheels entering the main track 1. The number of limiting devices can be adjusted according to the actual situation.
[0026] The lifting self-locking device for the suspended assembly line includes a first mounting base 5 mounted on the lifting profile 4. The first mounting base 5 has a movable track 6 for the suspension wheel to rest on. Below the first mounting base 5 are a first rotating shaft 7 and a second rotating shaft 8. One end of the first rotating shaft 7 is equipped with a sector gear 9, and one end of the second rotating shaft 8 is equipped with a first gear 10 that meshes with the sector gear 9. A lever 11 is mounted on the first rotating shaft 7, and a return spring is mounted on the second rotating shaft 8. The front end of the first mounting base 5 is equipped with a first lever 12 and a second lever 13 for locking the suspension wheel. The first lever 12 and the second lever 13 are rotatably connected to the second rotating shaft 8.
[0027] When the two ends of the movable track 6 are connected to the first track 2 and the second track 3, the lever 11 contacts the bottom surface of the limiting mounting seat 27 of the limiting device. The lever 11 drives the sector gear 9 on the first rotating shaft 7 to rotate. The sector gear 9 rotates in conjunction with the first gear 10 of the second rotating shaft 8. The second rotating shaft 8 drives the first lever 12 and the second lever 13 to open outward. At this time, the return spring deforms. During the descent, the angle formed between the lever 11 and the bottom surface of the limiting mounting seat 27 gradually increases until it loses contact. The return spring gradually returns to its original position. The return spring drives the second rotating shaft 8 to rotate, and the first lever 12 and the second lever 13 close inward to lock the hanging wheel.
[0028] A second mounting base 14 is provided below the first mounting base 5, and the first rotating shaft 7 and the second rotating shaft 8 are rotatably mounted in the second mounting base 14. A connecting block 15 is provided at one end of the second rotating shaft 8, one end of the return spring is connected to the first mounting base 5, and the other end of the return spring is connected to the connecting block 15.
[0029] The first lever 12 is rotatably mounted on the front end of the first mounting base 5 via the third rotating shaft 16, and one end of the first lever 12 is connected to the connecting block 15 via the first crank 17. The second lever 13 is rotatably mounted on the front end of the first mounting base 5 via the fourth rotating shaft 18, and one end of the second lever 13 is connected to the connecting block 15 via the second crank 19.
[0030] One end of the lever 11 is sleeved on the first rotating shaft 7, and the other end of the lever 11 is provided with a rotating wheel 20. The rotating wheel 20 can contact the bottom surface of the limiting mounting seat 27 of the limiting device to reduce wear between parts.
[0031] After the rotating wheel 20 of lever 11 disengages from the bottom surface of the limiting mounting base 27 of the limiting device, if the first lever 12 and the second lever 13 still lock the hanging wheel inward, it may damage the parts. A screw 21 is inserted through lever 11 to limit the swing amplitude of lever 11. By limiting the swing amplitude of lever 11, the inward closing amplitude of the first lever 12 and the second lever 13 is also limited. When the bottom of screw 21 abuts against the first mounting base 5, lever 11 can no longer close inward, and the first lever 12 and the second lever 13 stop closing inward.
[0032] The lifting profile 4 has a first mounting post 22 on one side, which is fixedly connected to the mounting bracket 23. The lifting profile 4 is provided with a pulley assembly 24 that moves up and down along the first mounting post 22. The first mounting post 22 is provided with a rodless cylinder 25 that drives the lifting profile 4 to move up and down. The rodless cylinder 25 is connected to the lifting profile 4 through a connecting frame 26, and the rodless cylinder 25 can drive the lifting profile 4 to move up and down along the first mounting post 22.
[0033] The preferred embodiment of this utility model has been described, and various changes or modifications made by those skilled in the art will not depart from the scope of this utility model.
Claims
1. A lifting self-locking device for a suspended production line, comprising a first mounting base (5) disposed on a lifting profile (4), characterized in that: The first mounting base (5) is provided with a movable track (6) for the hanging wheel to stop. The first mounting base (5) is provided with a rotating first shaft (7) and a second shaft (8) below it. One end of the first shaft (7) is provided with a sector gear (9), and one end of the second shaft (8) is provided with a first gear (10) that cooperates with the sector gear (9). The first shaft (7) is provided with a lever (11), and the second shaft (8) is provided with a return spring. The front end of the first mounting base (5) is provided with a first lever (12) and a second lever (13) for locking the hanging wheel. The first lever (12) and the second lever (13) are rotatably connected to the second shaft (8).
2. The lifting self-locking device for a suspended production line according to claim 1, characterized in that: The second rotating shaft (8) has a connecting block (15) at one end, one end of the reset spring is connected to the first mounting base (5), and the other end of the reset spring is connected to the connecting block (15).
3. The lifting self-locking device for a suspended production line according to claim 2, characterized in that: The first lever (12) is rotatably mounted on the front end of the first mounting base (5) via the third rotating shaft (16), and one end of the first lever (12) is connected to the connecting block (15) via the first crank (17); the second lever (13) is rotatably mounted on the front end of the first mounting base (5) via the fourth rotating shaft (18), and one end of the second lever (13) is connected to the connecting block (15) via the second crank (19).
4. The lifting self-locking device for a suspended production line according to claim 3, characterized in that: One end of the lever (11) is sleeved on the first rotating shaft (7), and the other end of the lever (11) is provided with a rotating wheel (20); the lever (11) is provided with a screw (21) for limiting the swing amplitude of the lever (11).
5. The lifting self-locking device for a suspended production line according to claim 4, characterized in that: The lifting profile (4) has a first mounting post (22) on one side. The first mounting post (22) is fixedly connected to the mounting bracket (23). The lifting profile (4) is provided with a pulley assembly (24) that moves up and down along the first mounting post (22). The first mounting post (22) is provided with a rodless cylinder (25) that drives the lifting profile (4) to move up and down.