A pipe winding device for paper tube production and processing

By introducing components such as discharge chute, connecting slider and discharge linear motor into the paper tube production equipment, the automated position adjustment of paper tube discharge is realized, which solves the problems of laborious, time-consuming and low precision in traditional paper tube processing, and improves discharge efficiency and precision.

CN224465407UActive Publication Date: 2026-07-07SIYANG HENGDA PAPER CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SIYANG HENGDA PAPER CO LTD
Filing Date
2025-08-21
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Traditional paper tube processing methods are labor-intensive and time-consuming, and rely on manual adjustment of the output component position, resulting in low efficiency and poor precision, making it difficult to meet the needs of modern large-scale production.

Method used

The system employs components such as a discharge chute, connecting slider, discharge contact ring, and discharge linear motor to achieve automated position adjustment of the discharge contact ring. By symmetrically fixing the connecting moving seat and the slider, the system enhances movement stability and ensures uniform and accurate discharge.

Benefits of technology

It improves the efficiency and accuracy of paper tube output, reduces manual intervention, and meets the needs of modern large-scale production.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model discloses a kind of pipe winding equipment for paper tube production and processing, it includes: work platform, forming assembly and import component, the upper surface of the work platform is provided with discharge chute, the inner surface of the discharge chute is slidably connected with connecting slide block, the side wall of the connecting slide block is fixedly connected with discharge resistance ring, the upper surface of the work platform is fixedly connected with discharge linear motor, the output end of the discharge linear motor is fixedly connected with connecting moving seat. By connecting slide block and discharge resistance ring fixed, it can drive its stable movement, ensure that the resistance force of paper tube is uniform when discharging, discharge linear motor as power source, through the connecting moving seat connected by output end, power is efficiently transmitted to connecting slide block, realize the automatic position adjustment of discharge resistance ring, reduce manual intervention, improve discharging efficiency, connecting moving seat and connecting slide block are fixed on both sides of discharge resistance ring symmetrically, enhance its moving stability, avoid paper tube deviation when discharging, guarantee processing precision.
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Description

Technical Field

[0001] This utility model relates to the field of paper tube processing technology, and in particular to a paper tube production and processing equipment for rolling tubes. Background Technology

[0002] In the paper tube processing industry, traditional manual paper tube processing methods are laborious and time-consuming, making it difficult to keep up with the pace of modern large-scale production. Although early semi-automatic tube winding machines have made some progress, they still require a large investment of manpower and resources, and their efficiency and quality are unsatisfactory. With the increasing demand for paper tubes from various industries, not only are reliable performance requirements needed in packaging, winding and other applications, but also a variety of specifications are expected to adapt to different products.

[0003] Traditional equipment often relies on manual adjustment of the discharge component position, which not only requires a large amount of manual intervention but also suffers from low adjustment accuracy and slow speed, severely restricting discharge efficiency. Utility Model Content

[0004] The purpose of this utility model is to provide a tube winding equipment for paper tube production and processing. By fixing the connecting slider to the discharge contact ring, it can drive the ring to move smoothly, ensuring uniform contact force on the paper tube during discharge. The discharge linear motor serves as the power source, and through the connecting moving seat connected to the output end, the power is efficiently transmitted to the connecting slider, realizing the automated position adjustment of the discharge contact ring, reducing manual intervention, and improving discharge efficiency. The connecting moving seat and the connecting slider are symmetrically fixed on both sides of the discharge contact ring, enhancing its movement stability, preventing the paper tube from deviating during discharge, and ensuring processing accuracy.

[0005] To achieve the above objectives, a paper tube winding device for paper tube production and processing is provided, comprising: a working platform, a forming component, and an infeeding component. A discharge chute is formed on the upper surface of the working platform, and a connecting slider is slidably connected to the inner surface of the discharge chute. A discharge abutment ring is fixedly connected to the side wall of the connecting slider. A discharge linear motor is fixedly connected to the upper surface of the working platform, and a connecting movable seat is fixedly connected to the output end of the discharge linear motor. The chute and slider work together to achieve smooth movement, and the motor drive ensures efficient power transmission, contributing to stable material discharge.

[0006] According to the aforementioned paper tube production and processing winding equipment, one side of the connecting movable seat and the connecting slider are fixedly connected, and the connecting movable seat and the connecting slider are symmetrically arranged on the discharge contact ring. The fixed connection enhances power transmission, and the symmetrical arrangement enhances the stability of the contact ring, ensuring balanced force during discharge.

[0007] According to the paper tube production and processing equipment, the discharge contact ring is located above the working platform. This upper arrangement facilitates alignment with the winding column, provides a reasonable contact position for the paper tube discharge, and improves discharge smoothness.

[0008] According to the aforementioned paper tube production and processing winding equipment, the forming assembly is located above the working platform. The forming assembly includes a retainer, a drive motor, and a winding rotating column. The drive motor is connected to the upper surface of the working platform, and the output end of the drive motor is fixedly connected to the winding rotating column. The retainer is rotatably connected to the outer surface of the winding rotating column. The layout above the assembly optimizes the working space, the motor drives the winding column to rotate, and the retainer ensures rotational stability.

[0009] According to the aforementioned paper tube production and processing winding equipment, the lower surface of the retainer is fixedly connected to the working platform, the outer surface of the winding rotating column is sleeved with the discharge contact ring, and the retainer is located between the drive motor discharge contact ring. The fixed retainer enhances the supporting force, the sleeved structure facilitates discharge contact, and the intermediate layout optimizes the power transmission path.

[0010] According to the aforementioned paper tube production and processing equipment, the guiding component is located on the upper surface of the working platform. The guiding component includes a controller, a positioning block, a mating groove, a positioning column, a rotating roller, a cutting hydraulic pump, a cutting hydraulic rod, a cutting blade, and an extension block. The controller and the positioning block are fixedly connected to the upper surface of the working platform. The positioning block has a mating groove on its side wall. A positioning column is fixedly connected to the inner surface of the mating groove. A rotating roller is rotatably connected to the outer surface of the positioning column. An extension block is fixedly connected to the side of the positioning block away from the mating groove. A cutting hydraulic pump is fixedly connected to the upper surface of the extension block. A cutting hydraulic rod is fixedly connected to the output end of the cutting hydraulic pump. A cutting blade is fixedly connected to the lower surface of the cutting hydraulic rod. The guiding component integrates positioning and cutting; the rotating roller reduces drag and guides the material; and hydraulically driven cutting is precise and efficient.

[0011] According to the paper tube production and processing equipment, the number of positioning blocks is four, and the number of mating grooves corresponds to the number of positioning blocks. The interior of each mating groove is connected to the outer surface of the positioning block, and the controller is located in front of the positioning blocks. Multiple positioning blocks corresponding to mating grooves ensure accurate material guiding, the interconnected design facilitates feeding, and the front controller is easy to operate.

[0012] The above-mentioned solution has the following beneficial effects:

[0013] This utility model includes a discharge chute, a connecting slider, a discharge contact ring, a discharge linear motor, and a connecting moving seat. The connecting slider is fixed to the discharge contact ring, enabling it to move smoothly and ensuring uniform contact force on the paper tube during discharge. The discharge linear motor serves as the power source, efficiently transmitting power to the connecting slider through the connecting moving seat connected to its output end. This achieves automated position adjustment of the discharge contact ring, reducing manual intervention and improving discharge efficiency. The connecting moving seat and the connecting slider are symmetrically fixed on both sides of the discharge contact ring, enhancing its movement stability, preventing paper tube deviation during discharge, and ensuring processing accuracy.

[0014] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description

[0015] The present invention will be further described below with reference to the accompanying drawings and embodiments;

[0016] Figure 1 This is a perspective view of a paper tube production and processing equipment according to the present invention.

[0017] Figure 2 This is a top view of a paper tube production and processing equipment according to the present invention;

[0018] Figure 3 This is a cross-sectional perspective view of a paper tube production and processing equipment according to this utility model;

[0019] Figure 4 This utility model Figure 3 Enlarged view of the structure at point A in the middle.

[0020] Legend:

[0021] 1. Working platform; 2. Controller; 3. Cage; 4. Drive motor; 5. Discharge contact ring; 6. Connecting slider; 7. Discharge chute; 8. Rewinding rotating column; 9. Discharge linear motor; 10. Connecting moving seat; 11. Positioning block; 12. Mating groove; 13. Positioning column; 14. Rotating roller; 15. Cutting hydraulic pump; 16. Cutting hydraulic rod; 17. Cutting blade; 18. Extension block. Detailed Implementation

[0022] This section will describe in detail the specific embodiments of the present utility model. The preferred embodiments of the present utility model are shown in the accompanying drawings. The purpose of the drawings is to supplement the textual description with graphics, so that people can intuitively and vividly understand each technical feature and overall technical solution of the present utility model, but they should not be construed as limiting the scope of protection of the present utility model.

[0023] Reference Figure 1-4This utility model discloses a paper tube production and processing winding equipment, which includes: a working platform 1, a forming component and an inlet component. The upper surface of the working platform 1 is provided with a discharge groove 7, which provides a guide track for the sliding of the connecting slider 6, ensuring that the discharge component moves along a fixed path. The inner surface of the discharge groove 7 is slidably connected to the connecting slider 6, which can slide stably along the discharge groove 7 and drive the discharge abutment ring 5 to achieve position adjustment. The side wall of the connecting slider 6 is fixedly connected to the discharge abutment ring 5. The movement of the connecting slider 6 drives the discharge abutment ring 5 to move closer to or away from the winding rotating column 8, assisting in the discharge of the paper tube. The upper surface of the working platform 1 is fixedly connected to a discharge linear motor 9, which serves as a drive source to provide power for the movement of the connecting moving seat 10. The output end of the discharge linear motor 9 is fixedly connected to the connecting moving seat 10, transmitting the power of the discharge linear motor 9 to the connecting slider 6 to achieve linear drive.

[0024] One side of the connecting movable seat 10 is fixedly connected to the connecting slider 6, so that the movement of the connecting movable seat 10 can synchronously drive the connecting slider 6 to slide in the discharge groove 7. The connecting movable seat 10 and the connecting slider 6 are symmetrically arranged on the discharge abutment ring 5, providing fixed support from both sides to ensure its stability during movement. The discharge abutment ring 5 is located above the working platform 1, outside the winding rotating column 8, and can form an abutment force on the rolled paper tube to facilitate discharge. The forming assembly is located above the working platform 1 and is the core working area for paper tube winding and forming. All components work together to complete the paper tube forming operation. The forming assembly includes a retainer 3, a drive motor 4, and a winding rotating column 8. The retainer 3 provides support, the drive motor 4 provides power, and the winding rotating column 8 realizes the winding and forming of the paper tube. The drive motor 4 is connected to the upper surface of the working platform 1 and is fixedly installed on the working platform 1. The drive motor 4 provides the driving force for the rotation of the winding rotating column 8. The output end of the drive motor 4 is fixedly connected to the winding rotating column 8, which transmits the rotational power of the drive motor 4 to the winding rotating column 8, enabling it to rotate and wind. A retainer 3 is rotatably connected to the outer surface of the winding rotating column 8. The retainer 3 provides radial support for the winding rotating column 8, ensuring its stability during high-speed rotation. The lower surface of the retainer 3 is fixedly connected to the working platform 1, which stably fixes the retainer 3 on the working platform 1, providing stable support for the winding rotating column 8. The outer surface of the winding rotating column 8 is sleeved with the discharge contact ring 5. The discharge contact ring 5 can move along the outer surface of the winding rotating column 8 to discharge the paper tube wound on it. The retainer 3 is located between the drive motor 4 and the discharge contact ring 5, and cooperates with the drive motor 4 and the winding rotating column 8 respectively, forming a support transition between the power input end and the discharge end.

[0025] The infeeding component is located on the upper surface of the work platform 1. It is used to guide the paper material into the forming component for winding and to complete the paper tube cutting operation. The infeeding component includes a controller 2, a positioning block 11, a mating groove 12, a positioning column 13, a rotating roller 14, a cutting hydraulic pump 15, a cutting hydraulic rod 16, a cutting blade 17, and an extension block 18. The controller 2 controls the overall movement, the positioning block 11 and the rotating roller 14 assist in the infeeding and positioning of the paper material, and the cutting component completes the paper tube cutting. The controller 2 and the positioning block 11 are fixedly connected to the upper surface of the work platform 1. The controller 2 is fixedly installed for easy operation and control, and the positioning block 11 is fixed. To provide a positioning reference for paper feeding, the side wall of the positioning block 11 has a mating groove 12, providing space for the installation of the positioning post 13 and the rotating roller 14, while also providing lateral restraint for the fed paper. The positioning post 13 is fixedly connected to the inner surface of the mating groove 12, providing fixed support for the rotating roller 14 and ensuring the stability of the installation position and rotation axis of the rotating roller 14. The rotating roller 14 is rotatably connected to the outer surface of the positioning post 13, allowing it to rotate around the positioning post 13 and achieve rolling guidance when in contact with the paper, reducing the resistance to paper feeding. An extension block 18 is fixedly connected to the side of the positioning block 11 away from the mating groove 12, for the cutting fluid. The hydraulic pump 15 provides a mounting carrier, connecting the cutting assembly and the positioning block 11 as one unit. The upper surface of the extension block 18 is fixedly connected to the cutting hydraulic pump 15, which is fixedly mounted on the extension block 18, providing power for the extension and retraction of the cutting hydraulic rod 16. The output end of the cutting hydraulic pump 15 is fixedly connected to the cutting hydraulic rod 16, converting the power of the cutting hydraulic pump 15 into linear motion, driving the cutting blade 17 to move up and down. The lower surface of the cutting hydraulic rod 16 is fixedly connected to the cutting blade 17, which moves downward under the drive of the cutting hydraulic rod 16 to cut the formed paper tube. There are four positioning blocks 11, from the paper material... The paper is positioned on both sides and in the front and back directions to ensure accurate paper feeding. The number of mating grooves 12 and the number of positioning blocks 11 are set accordingly. Each positioning block 11 is equipped with a rotating roller 14 through the mating groove 12 to ensure that the paper can be guided at each positioning position. The inside of the mating groove 12 is connected to the outer surface of the positioning block 11, so that the paper can enter the mating groove 12 from the outside of the positioning block 11 and contact the rotating roller 14 to achieve feeding. The controller 2 is located in front of the positioning block 11, close to the operation area, so that the operator can centrally control the movement of the feeding component and the forming component through the controller 2.

[0026] Working principle: First, the operator turns on the equipment via the controller 2 located in front of the positioning block 11, ensuring that the forming component and the feeding component on the work platform 1 are in the initial standby state. At this time, the discharge contact ring 5, under the linkage of the discharge linear motor 9, the connecting moving seat 10, and the connecting slider 6, is positioned away from the winding rotating column 8, reserving space for paper tube winding. The paper to be processed is fed from the outside of the positioning block 11 through the opening of the mating groove 12. After the paper enters the mating groove 12, it interacts with the rotating roller 14 on the outer surface of the positioning column 13. Upon contact, four positioning blocks 11 position the paper material from both sides and the front and back directions via mating grooves 12. The rotating roller 14 rotates around the positioning column 13 as the paper material moves, achieving resistance-free guidance and smoothly conveying the paper material to the winding rotating column 8 of the forming assembly. The controller 2 starts the drive motor 4, whose output drives the winding rotating column 8 to rotate. The winding rotating column 8 rotates stably under the radial support of the retainer 3. The paper material gradually winds and forms under the rotation of the winding rotating column 8. The retainer 3 provides continuous and stable support to the winding rotating column 8 through its fixed connection to the working platform 1 via its lower surface. When the paper tube on the winding rotating column 8 reaches the preset length, the controller 2 instructs the cutting hydraulic pump 15 on the extension block 18 to operate. The cutting hydraulic pump 15 drives the cutting hydraulic rod 16 to extend downwards, causing the cutting blade 17 to move downwards and precisely cut the formed paper tube. After cutting, the cutting hydraulic rod 16 retracts, and the cutting blade 17 resets. After cutting, the controller 2 controls the discharge linear motor 9 to start, and the output of the discharge linear motor 9 pushes the connecting moving seat 10 to move. The connecting movable seat 10 drives the connecting slider 6 to slide along the discharge chute 7. Since the connecting movable seat 10 and the connecting slider 6 are symmetrically fixed on both sides of the discharge abutment ring 5, the discharge abutment ring 5 moves synchronously with the connecting slider 6 towards the winding rotating column 8. The forming paper tube on the winding rotating column 8 is pushed away by the abutment thrust to complete the discharge. After the discharge is completed, the discharge linear motor 9 rotates in reverse, driving the discharge abutment ring 5, the connecting slider 6 and the connecting movable seat 10 to reset. The equipment returns to the initial standby state, waiting for the next paper feeding and winding operation.

[0027] In the description of this utility model, it should be understood that the terms "coaxial," "bottom," "one end," "top," "middle," "other end," "upper," "side," "top," "inner," "front," "center," and "both ends," 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. At the same time, unless otherwise explicitly specified and limited, the terms "set," "install," "connect," and "fixed installation," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two elements or the interaction relationship between two elements. Unless otherwise explicitly limited, those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.

[0028] The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings. However, the present utility model is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present utility model.

Claims

1. A tube winding device for paper tube production and processing, comprising: The working platform (1), forming component and inlet component are characterized in that: the upper surface of the working platform (1) is provided with a discharge groove (7), the inner surface of the discharge groove (7) is slidably connected with a connecting slider (6), the side wall of the connecting slider (6) is fixedly connected with a discharge abutment ring (5), the upper surface of the working platform (1) is fixedly connected with a discharge linear motor (9), and the output end of the discharge linear motor (9) is fixedly connected with a connecting moving seat (10).

2. The paper tube production and processing equipment according to claim 1, characterized in that: One side of the connecting movable seat (10) and the connecting slider (6) are fixedly connected, and the connecting movable seat (10) and the connecting slider (6) are symmetrically arranged on the discharge contact ring (5).

3. The paper tube production and processing equipment according to claim 1, characterized in that: The discharge contact ring (5) is located above the working platform (1).

4. The paper tube production and processing equipment according to claim 1, characterized in that: The forming assembly is located above the working platform (1). The forming assembly includes a retainer (3), a drive motor (4), and a winding rotating column (8). The upper surface of the working platform (1) is connected to the drive motor (4). The output end of the drive motor (4) is fixedly connected to the winding rotating column (8). The outer surface of the winding rotating column (8) is rotatably connected to the retainer (3).

5. The paper tube production and processing equipment according to claim 4, characterized in that: The lower surface of the retainer (3) is fixedly connected to the working platform (1), the outer surface of the winding rotating column (8) is sleeved with the discharge contact ring (5), and the retainer (3) is located between the drive motor (4) and the discharge contact ring (5).

6. The paper tube production and processing equipment according to claim 1, characterized in that: The import component is located on the upper surface of the working platform (1). The import component includes a controller (2), a positioning block (11), a mating groove (12), a positioning column (13), a rotating roller (14), a cutting hydraulic pump (15), a cutting hydraulic rod (16), a cutting blade (17), and an extension block (18). The controller (2) and the positioning block (11) are fixedly connected to the upper surface of the working platform (1). The positioning block (11) has a mating groove (12) on its side wall. The positioning column (13) is fixedly connected to the inner surface of the mating groove (12). The rotating roller (14) is rotatably connected to the outer surface of the positioning column (13). The extension block (18) is fixedly connected to the side of the positioning block (11) away from the mating groove (12). The cutting hydraulic pump (15) is fixedly connected to the upper surface of the extension block (18). The cutting hydraulic rod (16) is fixedly connected to the output end of the cutting hydraulic pump (15). The cutting blade (17) is fixedly connected to the lower surface of the cutting hydraulic rod (16).

7. A paper tube production and processing winding equipment according to claim 6, characterized in that: The number of positioning blocks (11) is four, the number of mating grooves (12) is set in correspondence with the number of positioning blocks (11), the interior of the mating grooves (12) is connected to the outer surface of the positioning blocks (11), and the controller (2) is located in front of the positioning blocks (11).