A rapid conveying line mechanism

By combining planar and inclined sections in the conveyor line design and using push and roller components, the problems of large space occupation and friction damage in traditional conveyor lines are solved, achieving efficient and low-damage product handling and protection.

CN224393907UActive Publication Date: 2026-06-23FOSHAN BEIDOFEN INTELLIGENT EQUIPMENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FOSHAN BEIDOFEN INTELLIGENT EQUIPMENT CO LTD
Filing Date
2025-08-18
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Traditional conveyor lines occupy a large space and cause waiting due to differences in cycle time when performing complex functions such as lifting and sorting, making it difficult to meet the needs of high-speed production. Furthermore, friction conveying methods do not provide sufficient protection for precision components or fragile products.

Method used

The design combines planar and inclined conveyor sections, using pusher components and roller conveyor components to reduce reliance on independent lifting mechanisms. The friction is reduced through the squeezing and rolling characteristics between the rollers, achieving efficient conveying and product protection.

Benefits of technology

It enables efficient and smooth product transition and handling, reduces friction damage, optimizes space layout, adapts to products of different thicknesses, and improves production efficiency and product protection.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of quick conveying line mechanism, the conveying line mechanism conveying line is divided into plane conveying and inclined conveying, it discards traditional belt conveyor, it is provided with handling assembly in plane conveying, and there is the roller conveying component in the innovative design on inclined conveying, reduce the dependence of independent jacking mechanism, further optimize space layout, so it has the advantages such as efficient conveying, low-loss handling and protection product surface.The utility model includes frame, product conveying line is installed on frame, and it is equipped with push part and roller conveying component on product conveying line, product conveying line is composed of plane conveying section and inclined conveying section, push part and roller conveying component are respectively installed on plane conveying section and inclined conveying section, and push part and roller conveying component are all used to push product element to move.The utility model is applied to product conveying line equipment technical field.
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Description

Technical Field

[0001] This utility model relates to the field of product conveying line equipment technology, and in particular to a high-speed conveying line mechanism. Background Technology

[0002] In modern industrial production, conveyor systems are the core equipment for product flow, and their efficiency and stability directly affect overall production capacity. However, traditional conveyor technology has significant limitations. Existing conveyor lines mostly adopt a single belt or chain plate structure, with low functional integration. When complex functions such as lifting and sorting are required, they need to rely on independent equipment, resulting in large production space occupation and waiting between processes due to differences in cycle time, making it difficult to meet the needs of high-speed production.

[0003] Especially in the context of conveying precision components or fragile products, traditional friction conveying methods struggle to balance efficiency and product protection. Excessive friction can cause surface scratches, while reducing friction may lead to slippage or inaccurate positioning.

[0004] To address the aforementioned issues, this utility model provides a high-speed conveyor line mechanism. This conveyor line mechanism is divided into planar conveying and inclined conveying. It abandons the traditional belt conveyor and has a handling component for planar conveying and an innovative roller conveying component for inclined conveying. This reduces the reliance on independent lifting mechanisms, further optimizes the spatial layout, and gives it the advantages of high-efficiency conveying, low-damage handling, and protection of product surfaces. Utility Model Content

[0005] To overcome the shortcomings of existing technologies, this utility model provides a high-speed conveyor line mechanism. The conveyor line is divided into planar conveying and inclined conveying. It abandons the traditional belt conveyor and has a handling component in the planar conveying and an innovative roller conveying component in the inclined conveying. This reduces the reliance on independent lifting mechanisms, further optimizes the spatial layout, and gives it the advantages of high-efficiency conveying, low-damage handling, and protection of product surfaces.

[0006] The present invention adopts the following technical solution:

[0007] This utility model provides a high-speed conveyor line mechanism, including a frame on which a product conveyor line is mounted. The product conveyor line is provided with a pushing component and a roller conveying component. The product conveyor line consists of a planar conveying section and an inclined conveying section. The pushing component and the roller conveying component are respectively mounted on the planar conveying section and the inclined conveying section. Both the pushing component and the roller conveying component are used to push the product components to move.

[0008] As described above, in a rapid conveyor mechanism, the pushing component includes a first driving component, a guide post, and a product limiting component. The product limiting component is slidably engaged with the guide post, and the first driving component is used to push the product limiting component to move along the guide post.

[0009] As described above, in a high-speed conveyor mechanism, the roller conveying component includes at least one upper roller component, at least one lower roller component, and a driving component. The driving component is used to drive the lower roller component to roll. The upper roller component is disposed above the lower roller component. The upper roller component and the lower roller component respectively roll in cooperation with the upper and lower sides of the product element.

[0010] As described above, in a rapid conveyor line mechanism, first product limiting components are provided on the left and right sides of the planar conveying section. The first product limiting components are fitted on the frame. The first product limiting components include a second driving cylinder and a first limiting plate. The second driving cylinder is used to drive the first limiting plate to slide and fit on the frame.

[0011] As described above, in a high-speed conveyor line mechanism, second product limiting components are provided on the left and right sides of the inclined conveyor section. The second product limiting components include a slide rail, a slide base, a locking handle, and a second limiting plate. The slide rail is mounted on the frame, and the locking handle and the second limiting plate are both mounted on the slide base. The slide base is slidably engaged with the slide rail, and the locking handle is used to limit the movement of the slide base.

[0012] As described above, in a rapid conveyor mechanism, the product limiting component includes a first telescopic cylinder and a third limiting plate. The sliding end of the first telescopic cylinder is connected and cooperates with the third limiting plate, and the third limiting plate is in a limiting cooperation with the product element.

[0013] As described above, in a rapid conveyor mechanism, the upper roller component includes a fixed support base, a second telescopic cylinder, and an upper roller element. The second telescopic cylinder is mounted on the fixed support base, and the movable end of the second telescopic cylinder is connected and cooperates with the upper roller element.

[0014] In the high-speed conveyor mechanism described above, the diameter and length of the roller element of the upper roller component are smaller than the diameter and length of the roller element of the lower roller component.

[0015] As described above, in a rapid conveyor mechanism, the cross-section of the first limiting plate is L-shaped, and the first limiting plate is provided with a horizontal section and a vertical section, with an outwardly expanding end at the end of the vertical section.

[0016] As described above, in a rapid conveyor line mechanism, the second limiting plate has a horizontal section and a vertical section, and the end of the vertical section near the planar conveyor section has a tapering section.

[0017] Implementing this utility model embodiment has the following beneficial effects: The frame, as the load-bearing component of this utility model, provides the installation foundation for the product conveying line, the pushing component, and the roller conveying component. The planar conveying section provides support and limit for the pushing component. The pushing component accurately pushes the product components from the planar conveying section to the inclined conveying section. The roller conveying component utilizes the squeezing and rolling characteristics between the rollers to reduce the friction between the product components and the conveying surface, thereby lifting and transporting the product components to the next workstation. The use of roller conveying components can effectively protect the appearance of the product components. Since the spacing between the roller conveying components can be adjusted, they can be used for product components of different thicknesses. The two work together to ensure a smooth transition and efficient transport of the product components from the planar to the inclined section. Attached Figure Description

[0018] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0020] Figure 2 This is a structural diagram of a product conveyor line;

[0021] Figure 3 This is a structural diagram of the driving component;

[0022] Figure 4 This is a structural schematic diagram of the present invention (removing the upper roller component);

[0023] Figure 5 This is a schematic diagram of the inclined conveyor section; Figure 6 This is a structural schematic diagram of the planar conveyor section and the first product limiting assembly;

[0024] Figure 7 This is a structural diagram of the first and second limiting plates. Detailed Implementation

[0025] 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.

[0026] like Figures 1 to 7 As shown, this utility model proposes a high-speed conveyor line mechanism, including a frame 1, on which a product conveyor line 2 is mounted. The product conveyor line 2 is provided with a pushing component 3 and a roller conveying component 4. The product conveyor line 2 consists of a planar conveying section 20 and an inclined conveying section 21. The pushing component 3 and the roller conveying component 4 are respectively mounted on the planar conveying section 20 and the inclined conveying section 21. Both the pushing component 3 and the roller conveying component 4 are used to push the product components to move. Therefore, the frame 1 is the load-bearing component of this utility model, providing the mounting base for the product conveyor line 2, the pushing component 3, and the roller conveying component 4. The planar conveying section 20 provides support and limit for the pushing component 3. The pushing component 3 accurately pushes the product components from the planar conveying section 20 to the inclined conveying section 21. The roller conveying component 4 utilizes the squeezing and rolling characteristics between the rollers to reduce the friction between the product and the conveying surface, thereby lifting and transporting the product components to the next workstation. The two work together to ensure a smooth transition and efficient transport of the product components from the planar section to the inclined section.

[0027] Furthermore, in this embodiment, the pushing component 3 includes a first driving component 30, a guide post 31, and a product limiting component 32. The product limiting component 32 is slidably engaged with the guide post 31. The first driving component 30 is used to push the product limiting component 32 to move along the guide post 31. Thus, the first driving component 30 provides driving force to move the product limiting component 32. The guide post 31 guides the sliding of the product limiting component 32 through a linear bearing, ensuring that the limiting component 32 moves along a predetermined straight trajectory and preventing jamming due to uneven force. The product limiting component 32 limits the product component. Through the pushing action of the first driving component 30 to the inclined conveying section 21, the three components work together to achieve precise and stable operation of the pushing component 3 in the planar conveying section 20.

[0028] Furthermore, in this embodiment, the roller conveying component 4 includes at least one upper roller component 40, at least one lower roller component 41, and a driving component 42. The driving component 42 drives the lower roller component 41 to roll. The upper roller component 40 is disposed above the lower roller component 41. The upper roller component 40 and the lower roller component 41 respectively roll in cooperation with the upper and lower sides of the product element. Thus, the lower roller component 41 provides support and rolling limit for the lower surface of the product element, while the upper roller component 40 provides rolling cooperation with the upper surface of the product element, working together with the lower roller component 41 to clamp and lift it upwards. The driving component 42 is a motor or pneumatic motor, which transmits driving force to the lower roller component 41 through a rack and pinion or belt transmission method, causing it to rotate.

[0029] Furthermore, in this embodiment, first product limiting components 5 are provided on the left and right sides of the planar conveying section 20. The first product limiting components 5 are fitted onto the frame 1. The first product limiting components 5 include a second driving cylinder 50 and a first limiting plate 51. The second driving cylinder 50 is used to drive the first limiting plate 51 to slide on the frame 1. Thus, the machine 1 provides support and installation for the first product limiting components 5, the second driving cylinder 50 drives the first limiting plate 51 to adjust its position to accommodate products of different sizes or to adjust the limiting force, and the first limiting plate 51 limits the sides of the product components to prevent offset or slippage and ensure accurate positioning.

[0030] Furthermore, in this embodiment, the left and right sides of the inclined conveying section 21 are provided with second product limiting components 6. The second product limiting components 6 include a slide rail 60, a slide base 61, a locking handle 62, and a second limiting plate 63. The slide rail 60 is mounted on the frame 1. The locking handle 62 and the second limiting plate 63 are both mounted on the slide base 61. The slide base 61 is slidably engaged with the slide rail 60. The locking handle 62 is used to limit the movement of the slide base 61. Therefore, the machine 1 provides support and installation for the second product limiting component 6, the slide rail 60 guides the slide block 61 during movement, ensuring the straightness and stability of the adjustment path, the slide block 61 supports and limits the second limiting plate 63, and can also drive the second limiting plate 63 to move, allowing the second limiting plate 63 to be manually adjusted along the slide rail 60 to accommodate products of different sizes, the second limiting plate 63 limits the side of the product component, and the locking handle 62 fixes the position of the slide block 61 by rotating the handle, ensuring the stability of the product component's limiting position.

[0031] Furthermore, in this embodiment, the product limiting component 32 includes a first telescopic cylinder 320 and a third limiting plate 321. The sliding end of the first telescopic cylinder 320 is connected and cooperates with the third limiting plate 321, and the third limiting plate 321 is engaged with the product element for limiting. Thus, the first telescopic cylinder 320 provides support and lifting for the third limiting plate 321, thereby enabling the third limiting plate 321 to clamp or release the product element at the planar conveying end, and the third limiting plate 321 to limit the side of the product element.

[0032] Furthermore, in this embodiment, the upper roller component 40 includes a fixed support base 400, a second telescopic cylinder 401, and an upper roller element 402. The second telescopic cylinder 401 is mounted on the fixed support base 400, and its movable end is connected to the upper roller element 402. Thus, the fixed support base 400 provides support and fixation for the second telescopic cylinder 401. The second telescopic cylinder 401 drives the upper roller element 402 to extend and retract, adapting to products of different thicknesses or heights and ensuring appropriate pressure between the upper roller and the product element surface. The upper roller element 402 works in conjunction with the lower roller component 41 to clamp and transport the product element.

[0033] Furthermore, in this embodiment, the diameter and length of the upper roller element 402 of the upper roller component 40 are smaller than the diameter and length of the roller element of the lower roller component 41. Therefore, the upper roller element 402 is designed with a smaller diameter and length because it is mainly used to press product components and assist in product handling, while also reducing costs. The lower roller component 41 is designed with a larger diameter and length because it is the main support component of the conveyor belt, bearing the entire weight of the product and the conveyor belt, and therefore needs to have high load-bearing capacity and stability.

[0034] Furthermore, in this embodiment, the cross-section of the first limiting plate 51 is L-shaped. The first limiting plate 51 is provided with a horizontal section and a vertical section, and the end of the vertical section is provided with an outwardly expanding end 510. It can be seen that the horizontal section plays a role in limiting the product component in the vertical direction, the vertical section plays a role in limiting the product component in the horizontal direction, and the outwardly expanding end 510 is flared. When the product component is slightly deviated due to conveying error, it guides the product component to smoothly enter the limiting area and avoids collision or jamming.

[0035] Furthermore, in this embodiment, the second limiting plate 63 is provided with a horizontal section and a vertical section, and the end of the vertical section near the planar conveying section 20 is provided with a constriction portion 630. Thus, the horizontal section serves to limit the product component in the vertical direction, the vertical section serves to limit the product component in the lateral direction, and the constriction portion serves to guide the product component when it enters the inclined conveying section 21, preventing collisions or jamming.

[0036] Specifically, the working principle of this invention is as follows:

[0037] The feeding assembly conveys the product element (packaging paper) to the planar conveying end 20. The first telescopic cylinder 320 lifts the third limiting plate 321. The third limiting plate 321 and the first limiting plate 51 respectively limit the three sides of the product element. The pushing component 3 pushes the product element toward the inclined conveying section 21. The roller conveying component 4 rolls and engages the upper and lower ends of the product element, pushing the product element upward. At the same time, the second limiting block 53 limits the left and right ends of the product element, transporting the product element to the next station.

[0038] It should be understood that the terms "first," "second," etc., are used in this utility model to describe various information, but this information should not be limited to these terms. These terms are only used to distinguish information of the same type from each other. For example, without departing from the scope of this utility model, "first" information can also be referred to as "second" information, and similarly, "second" information can also be referred to as "first" information. In addition, the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0039] The above description is the preferred embodiment of this utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this utility model, and these improvements and modifications are also considered to be within the protection scope of this utility model.

Claims

1. A high-speed conveyor line mechanism, comprising a frame (1) on which a product conveyor line (2) is mounted, characterized in that, The product conveying line (2) is provided with a pushing component (3) and a roller conveying component (4). The product conveying line (2) consists of a planar conveying section (20) and an inclined conveying section (21). The pushing component (3) and the roller conveying component (4) are respectively installed on the planar conveying section (20) and the inclined conveying section (21). Both the pushing component (3) and the roller conveying component (4) are used to push the product components to move.

2. The high-speed conveyor line mechanism according to claim 1, characterized in that, The pushing component (3) includes a first driving component (30), a guide post (31) and a product limiting component (32). The product limiting component (32) is slidably engaged with the guide post (31). The first driving component (30) is used to push the product limiting component (32) to move along the guide post (31).

3. The high-speed conveyor line mechanism according to claim 1, characterized in that, The roller conveying component (4) includes at least one upper roller component (40), at least one lower roller component (41), and a driving component (42). The driving component (42) is used to drive the lower roller component (41) to roll. The upper roller component (40) is disposed above the lower roller component (41). The upper roller component (40) and the lower roller component (41) respectively roll in cooperation with the upper and lower sides of the product element.

4. The high-speed conveyor line mechanism according to claim 1, characterized in that, The left and right sides of the planar conveying section (20) are provided with first product limiting components (5). The first product limiting components (5) are fitted on the frame (1). The first product limiting components (5) include a second driving cylinder (50) and a first limiting plate (51). The second driving cylinder (50) is used to drive the first limiting plate (51) to slide on the frame (1).

5. A high-speed conveyor line mechanism according to claim 1, characterized in that, The inclined conveying section (21) is provided with a second product limiting component (6) on the left and right sides. The second product limiting component (6) includes a slide rail (60), a slide block (61), a locking handle (62), and a second limiting plate (63). The slide rail (60) is installed on the frame (1). The locking handle (62) and the second limiting plate (63) are both installed on the slide block (61). The slide block (61) slides on the slide rail (60). The locking handle (62) is used to limit the movement of the slide block (61).

6. A high-speed conveyor line mechanism according to claim 2, characterized in that, The product limiting component (32) includes a first telescopic cylinder (320) and a third limiting plate (321). The sliding end of the first telescopic cylinder (320) is connected and cooperates with the third limiting plate (321), and the third limiting plate (321) is in a limiting cooperation with the product element.

7. A high-speed conveyor line mechanism according to claim 3, characterized in that, The upper roller component (40) includes a fixed support base (400), a second telescopic cylinder (401), and an upper roller element (402). The second telescopic cylinder (401) is mounted on the fixed support base (400), and the movable end of the second telescopic cylinder (401) is connected and cooperates with the upper roller element (402).

8. A high-speed conveyor line mechanism according to claim 3, characterized in that, The diameter and length of the upper roller element (402) of the upper roller component (40) are smaller than the diameter and length of the roller element of the lower roller component (41).

9. A high-speed conveyor line mechanism according to claim 4, characterized in that, The first limiting plate (51) has an L-shaped cross section and is provided with a horizontal section and a vertical section. The end of the vertical section is provided with an outward expansion end (510).

10. A high-speed conveyor line mechanism according to claim 5, characterized in that, The second limiting plate (63) is provided with a horizontal section and a vertical section, and the vertical section is provided with a constriction part (630) at one end near the planar conveying section (20).