A shaping device for processing casual shoes

CN224386889UActive Publication Date: 2026-06-23JINJIANG SHIBANG SHOES CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JINJIANG SHIBANG SHOES CO LTD
Filing Date
2025-10-04
Publication Date
2026-06-23

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  • Figure CN224386889U_ABST
    Figure CN224386889U_ABST
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Abstract

The utility model discloses a kind of shaping devices for leisure shoes processing, belong to leisure shoes processing field, including main body rack, the upper end of the main body rack is provided with controller, the upper end of the main body rack is equipped with conveying mechanism, the right end of the conveying mechanism is equipped with conveying drive motor, the upper end of the main body rack is fixedly installed with workstation support, the left side of the workstation support is fixedly installed with rotary drive motor;Through the annular installation design of multiple shoe tree components, then the output shaft of rotary drive motor drives indexer and rotary workstation to rotate, and then drive shoe tree component annular motion, can be operated to multiple pairs of shoes cyclically, then through pressure cylinder driving shaping pressure head plate sliding sequentially to shoe is shaped, greatly improve production efficiency, meet the demand of modernization large-scale production, effectively solve the problem of low efficiency of traditional shaping device.
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Description

Technical Field

[0001] This utility model relates to the field of casual shoe processing technology, specifically a shaping device for casual shoe processing. Background Technology

[0002] In the production and processing of casual shoes, the shoe body will have uneven areas after the initial processing. The shoe body needs to be further processed. The shoe body is fixed on the shaping and shaping device, and the shape of the shoe body is corrected by hammering and squeezing to make its surface smoother or flatter.

[0003] In the existing casual shoe manufacturing process, the shaping process is a crucial step, which directly affects the appearance quality and wearing comfort of the shoes. However, traditional shaping devices often suffer from problems such as low efficiency and unstable shaping effect, which cannot meet the needs of modern large-scale production. Some shaping devices require frequent manual adjustments during operation, which not only increases labor intensity but also reduces production efficiency.

[0004] Therefore, this utility model provides a shaping device for processing casual shoes to solve the above problems. Utility Model Content

[0005] This utility model provides a shaping device for processing casual shoes, aiming to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution: It includes a main frame, a controller is installed in the upper part of the main frame, a conveying mechanism is installed in the upper part of the main frame, a conveying drive motor is installed in the right end of the conveying mechanism, a workbench support is fixedly installed in the upper part of the main frame, a rotary drive motor is fixedly installed in the left side of the workbench support, a rotary workbench is installed on the output shaft of the rotary drive motor, a pressure cylinder is installed in the upper part of the workbench support, a shaping pressure head plate is fixedly installed in the telescopic end of the pressure cylinder, and multiple sets of shoe last assemblies are circularly installed on the rotary workbench.

[0007] As a preferred technical solution of this application, a plurality of support legs are fixedly installed at the lower end of the main frame, the lower ends of the plurality of support legs are in contact with the ground, and anti-slip pads are provided on the side of the lower ends of the plurality of support legs in contact with the ground.

[0008] As a preferred technical solution of this application, two sets of pressure head guide columns are movably inserted into the upper end of the workbench support, the lower ends of the two sets of pressure head guide columns are fixedly connected to the shaping pressure head plate, and the two sets of shaping pressure head plates are connected to the left and right sides of the pressurizing cylinder.

[0009] As a preferred technical solution of this application, the shoe last assembly includes an electric telescopic rod, which is fixedly installed on a rotating worktable. A shoe last body is fixedly installed on the opposite side of the electric telescopic rod connected to the rotating worktable. A protrusion is fixedly installed on the right side of the shoe last body. An adjustment drive motor is fixedly installed inside the protrusion. A drive gear is installed on the output shaft of the adjustment drive motor. Two sets of threaded sleeves are rotatably installed inside the protrusion. A driven gear is fixedly installed at the left end of each of the two sets of threaded sleeves. The two sets of driven gears mesh with the drive gear. A first screw is threadedly inserted into each of the two sets of threaded sleeves. A second screw is threadedly inserted into each of the two sets of first screws. A shoe last extension block is installed at the right end of each of the two sets of second screws.

[0010] As a preferred technical solution of this application, a silicone heating element is fixedly installed inside the lower end of the shaping pressure plate, and the heating element is electrically connected to the temperature controller in the controller.

[0011] As a preferred technical solution of this application, an indexer is fixedly installed at the connection between the rotary worktable and the worktable support, and the indexer is fixedly connected to the output shaft of the rotary drive motor.

[0012] First, through the circular installation design of multiple shoe last components, the output shaft of the rotary drive motor drives the indexing device and the rotary worktable to rotate, thereby driving the shoe last components to move in a circular motion. This allows for the cyclic shaping operation of multiple pairs of shoes. Then, the pressure cylinder drives the shaping pressure plate to slide and shape the shoes sequentially, greatly improving production efficiency, meeting the needs of modern large-scale production, and effectively solving the problem of low efficiency in traditional shaping devices. Attached Figure Description

[0013] Figure 1 A front view schematic diagram of a shaping device for processing casual shoes;

[0014] Figure 2 A schematic diagram of the right-side structure of a shaping device for processing casual shoes;

[0015] Figure 3 This is a right-side structural schematic diagram of a shoe last assembly in a shaping device for processing casual shoes;

[0016] Figure 4 This is a front view structural cross-sectional diagram of a shoe last component in a shaping device for processing casual shoes;

[0017] Figure 5 for Figure 4 A magnified structural diagram at point A.

[0018] In the picture:

[0019] 1. Main frame; 2. Support feet; 3. Controller; 4. Conveying mechanism; 5. Conveying drive motor; 6. Workbench support; 7. Rotary drive motor; 8. Rotary workbench; 9. Pressurizing cylinder; 10. Press head guide column; 11. Shaping press head plate; 12. Electric telescopic rod; 13. Shoe last body; 14. Protrusion; 15. Adjustment drive motor; 16. Drive gear; 17. Screw sleeve; 18. Driven gear; 19. First screw; 20. Second screw; 21. Shoe last extension block. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0021] This utility model provides a shaping device for processing casual shoes, such as... Figure 1-5 As shown, the shaping device for casual shoe processing includes a main frame 1, a controller 3 is installed in the upper end of the main frame 1, a conveying mechanism 4 is installed in the upper end of the main frame 1, a conveying drive motor 5 is installed in the right end of the conveying mechanism 4, a workbench support 6 is fixedly installed in the upper end of the main frame 1, a rotary drive motor 7 is fixedly installed in the left side of the workbench support 6, a rotary workbench 8 is installed on the output shaft of the rotary drive motor 7, a pressure cylinder 9 is installed in the upper end of the workbench support 6, a shaping pressure plate 11 is fixedly installed in the telescopic end of the pressure cylinder 9, and multiple sets of shoe last assemblies are installed in a ring on the rotary workbench 8.

[0022] The output shaft of the rotary drive motor 7 drives the rotary worktable 8 and multiple shoe last assemblies to move in a ring, and lifts the shoes conveyed by the conveyor drive motor 5 and the conveyor mechanism 4. Then, the shoes are shaped sequentially by the pressurizing cylinder 9 and the shaping pressure plate 11, thereby improving the processing and shaping efficiency of the shoes.

[0023] Multiple sets of support legs 2 are fixedly installed at the lower end of the main frame 1. The lower ends of the multiple sets of support legs 2 are in contact with the ground, and anti-slip pads are provided on the side of the lower ends of the multiple sets of support legs 2 that are in contact with the ground.

[0024] The multiple sets of support feet 2 ensure the stability of the device during operation, while the anti-slip pads further enhance the friction between the device and the ground, preventing the device from shifting due to vibration during the shaping process, thereby ensuring the accuracy and safety of the shaping operation.

[0025] Two sets of pressure head guide columns 10 are movably inserted into the upper end of the workbench support 6. The lower ends of the two sets of pressure head guide columns 10 are fixedly connected to the shaping pressure head plate 11. The two sets of shaping pressure head plates 11 are connected to the left and right sides of the pressurizing cylinder 9.

[0026] The two sets of pressure head guide columns 10 can guide and limit the shaping pressure head plate 11, ensuring that the shaping pressure head plate 11 can slide up and down smoothly and accurately under the drive of the pressure cylinder 9, thereby ensuring the accuracy of shoe shaping and avoiding poor shaping effect caused by the sliding deviation of the shaping pressure head plate 11.

[0027] The shoe last assembly includes an electric telescopic rod 12, which is fixedly mounted on a rotary worktable 8. A shoe last body 13 is fixedly mounted on the opposite side of the electric telescopic rod 12 and the rotary worktable 8. A protrusion 14 is fixedly mounted on the right side of the shoe last body 13. An adjustment drive motor 15 is fixedly mounted inside the protrusion 14. A drive gear 16 is mounted on the output shaft of the adjustment drive motor 15. Two sets of threaded sleeves 17 are rotatably mounted inside the protrusion 14. A driven gear 18 is fixedly mounted on the left end of each of the two sets of threaded sleeves 17. The two sets of driven gears 18 mesh with the drive gear 16. A first screw 19 is threadedly inserted into each of the two sets of threaded sleeves 17. A second screw 20 is threadedly inserted into each of the two sets of first screws 19. A shoe last extension block 21 is mounted on the right end of each of the two sets of second screws 20.

[0028] The design of the shoe last assembly allows for flexible adjustments during the shaping process based on different parts of the shoe and shaping requirements. The output shaft of the drive motor 15 is adjusted to drive the drive gear 16 to rotate, which in turn drives two sets of driven gears 18 to rotate, thereby driving two sets of threaded sleeves 17 to rotate. The rotation of the threaded sleeves 17 allows the first screw 19 and the second screw 20, which are threaded onto them, to extend and retract, thereby moving the shoe last expansion block 21. The electric telescopic rod 12 then drives the shoe last body 13 and the shoe last expansion block 21 to be inserted into the shoe, so that when the shoe last body 13 and the shoe last expansion block 21 are inserted into the shoe, they expand and open to fit tightly inside the shoe.

[0029] A silicone heating element is fixedly installed at the lower end of the shaping pressure plate 11, and the heating element is electrically connected to the temperature controller in the controller 3.

[0030] The silicone heating pads can heat and soften the shoes, making them easier to shape during the shaping process and improving the shaping effect. At the same time, the temperature controller can precisely control the heating temperature to prevent damage to the shoes due to excessive temperature, ensuring the quality and safety of the shaping operation.

[0031] An indexer is fixedly installed at the connection between the rotary table 8 and the table support 6, and the indexer is fixedly connected to the output shaft of the rotary drive motor 7.

[0032] The indexing device ensures that the rotary worktable 8 rotates precisely under the drive of the rotary drive motor 7, thereby driving the shoe last assembly to move accurately in a ring. This allows each shoe to be accurately positioned on the upper side of the shaping pressure plate 11 and the conveying mechanism 4, improving the accuracy and consistency of the shaping process. The precise control of the indexing device also avoids the problem of unstable shaping effect caused by rotation angle deviation, further enhancing the overall performance of the device.

[0033] Working principle: During operation, the shoes to be shaped are first transported to the appropriate position by the cooperation of the conveying mechanism 4 and the conveying drive motor 5. At this time, the rotary drive motor 7 starts, and its output shaft drives the indexing device and the rotary worktable 8 to rotate. Multiple sets of shoe last assemblies on the rotary worktable 8 move in a ring. When a set of shoe last assemblies moves directly above the shoe, the electric telescopic rod 12 drives the shoe last assembly to descend, so that the shoe last body 13 and the shoe last extension block 21 are inserted into the shoe. The output shaft of the adjustment drive motor 15 can drive the drive gear 16 to rotate as needed, and then through the driven gear 18, the screw sleeve 17, and the first screw... The transmission of the second screw 20 and the second screw 19 causes the shoe last extension block 21 to extend and retract to better fit the internal shape of the shoe. Multiple sets of shoe last components and shoes on the rotary worktable 8 move and align with the shaping pressure plate 11. The pressurizing cylinder 9 is activated, and its extension end drives the shaping pressure plate 11 to slide downward. The shaping pressure plate 11 squeezes and shapes the shoes, improving the shaping effect. When a set of shoes is shaped, the rotary drive motor 7 continues to drive the rotary worktable 8 to rotate, so that the next set of shoe last components moves to the appropriate position to perform the shaping operation of the next pair of shoes. This cycle is repeated to realize the continuous shaping processing of multiple pairs of shoes and improve production efficiency.

[0034] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A shaping device for processing casual shoes, comprising a main frame (1), characterized in that: A controller (3) is installed inside the upper end of the main frame (1). A conveying mechanism (4) is installed on the upper end of the main frame (1). A conveying drive motor (5) is installed on the right end of the conveying mechanism (4). A workbench support (6) is fixedly installed on the upper end of the main frame (1). A rotary drive motor (7) is fixedly installed on the left side of the workbench support (6). A rotary workbench (8) is installed on the output shaft of the rotary drive motor (7). A pressurizing cylinder (9) is installed on the upper end of the workbench support (6). A shaping pressure head plate (11) is fixedly installed on the telescopic end of the pressurizing cylinder (9). Multiple sets of shoe last assemblies are installed in a ring on the rotary workbench (8).

2. The shaping device for processing casual shoes according to claim 1, characterized in that: The lower end of the main frame (1) is fixedly installed with multiple sets of support feet (2). The lower ends of the multiple sets of support feet (2) are in contact with the ground, and anti-slip pads are provided on the side of the lower ends of the multiple sets of support feet (2) that are in contact with the ground.

3. The shaping device for processing casual shoes according to claim 1, characterized in that: Two sets of pressure head guide columns (10) are movably inserted into the upper end of the workbench support (6). The lower ends of the two sets of pressure head guide columns (10) are fixedly connected to the shaping pressure head plate (11). The two sets of shaping pressure head plates (11) are connected to the left and right sides of the pressurizing cylinder (9).

4. The shaping device for processing casual shoes according to claim 1, characterized in that: The shoe last assembly includes an electric telescopic rod (12), which is fixedly mounted on a rotating worktable (8). A shoe last body (13) is fixedly mounted on the opposite side of the electric telescopic rod (12) and the rotating worktable (8). A protrusion (14) is fixedly mounted on the right side of the shoe last body (13). An adjustment drive motor (15) is fixedly mounted inside the protrusion (14). An active gear (16) is mounted on the output shaft of the adjustment drive motor (15). Two sets of threaded sleeves (17) are rotatably installed inside the protrusion (14). A driven gear (18) is fixedly installed on the left end of each set of threaded sleeves (17). The driven gears (18) mesh with the driving gear (16). A first screw (19) is threadedly inserted into each set of threaded sleeves (17). A second screw (20) is threadedly inserted into each set of first screws (19). A shoe last extension block (21) is installed on the right end of each set of second screws (20).

5. The shaping device for processing casual shoes according to claim 1, characterized in that: A silicone heating element is fixedly installed at the lower end of the shaping pressure plate (11), and the heating element is electrically connected to the temperature controller in the controller (3).

6. The shaping device for processing casual shoes according to claim 4, characterized in that: An indexer is fixedly installed at the connection between the rotary worktable (8) and the worktable support (6), and the indexer is fixedly connected to the output shaft of the rotary drive motor (7).