Electrolytic copper packaging tape waste collection device

By designing a crushing mechanism, mounting box, storage box, and guiding mechanism, the waste collection device for electrolytic copper packaging tape has solved the problem of production line downtime caused by waste collection in electrolytic copper production, and achieved continuous collection and efficient processing.

CN224443137UActive Publication Date: 2026-07-03CHANGZHOU TONGTAI HIGH CONDUCTIVITY NEW MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHANGZHOU TONGTAI HIGH CONDUCTIVITY NEW MATERIALS CO LTD
Filing Date
2025-08-04
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

In the current electrolytic copper production process, the method of collecting waste packaging tape after it is cut off causes frequent shutdowns of the production line, affecting efficiency and posing safety hazards.

Method used

An electrolytic copper packaging strip shearing waste collection device was designed, including a crushing mechanism, an installation box, a storage box, a guiding mechanism, and an adjusting mechanism. The storage box is stably installed and rotated through a limiting beam, casters, and a guide plate, ensuring continuous collection and avoiding downtime for box replacement.

Benefits of technology

It enables continuous collection of packaging waste, improves production efficiency, avoids downtime caused by changing boxes, and enhances the applicability and ease of operation of the device.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the technical field of waste collection, and in particular to a waste collection device for electrolytic copper packaging tape cutting, comprising: a crushing mechanism for crushing the packaging tape; a mounting box installed at the bottom of the crushing mechanism, with a limiting beam in the middle of the mounting box; two collection boxes, respectively installed at the through slots at both ends of the mounting box via slide rails, with the displacement range between the collection boxes and the mounting box limited by the limiting beam; a door lock on the collection box for locking the connection position between the collection box and the mounting box; and casters at the bottom of the collection box; a guiding mechanism installed inside the mounting box for guiding the crushed packaging tape to the other collection box after one collection box is full; and an adjusting mechanism installed at both ends of the mounting box; its production process is continuous and its operation is convenient.
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Description

Technical Field

[0001] This utility model relates to the technical field of waste collection, and in particular to a device for collecting waste materials removed from electrolytic copper packaging tape. Background Technology

[0002] In the production and processing of electrolytic copper, metal or plastic strapping is typically used to secure copper plates during transportation and stacking to ensure their stability. With the widespread adoption of automated strapping cutting equipment, the efficiency of strapping removal has significantly improved. However, the large amount of waste generated from this cutting (such as steel and plastic strapping) cannot be collected and processed promptly and systematically. This not only affects the cleanliness of the work site but may also interfere with subsequent processes and even pose safety hazards. Currently, the most common waste collection method is a single-box collection structure, where a detachable collection box is placed below the crushing mechanism to temporarily store the crushed strapping fragments. While this structure achieves a certain degree of centralized collection, in practical applications, the machine must be stopped and replaced when the collection box is full, causing production line interruptions and impacting overall operational efficiency. Utility Model Content

[0003] To solve the above-mentioned technical problems, this utility model provides a waste collection device for electrolytic copper packaging tape that features a continuous production process and convenient operation.

[0004] This utility model relates to a waste collection device for electrolytic copper packaging tape cutting, comprising:

[0005] A shredding mechanism is used to shred the packaging tape.

[0006] The mounting box is installed at the bottom of the crushing mechanism, and a limit beam is provided in the middle of the mounting box;

[0007] Two storage boxes are installed in the through slots at both ends of the installation box via slide rails. The storage boxes and the installation box are connected by a limiting beam to restrict their displacement range. The storage boxes are equipped with door locks to lock the connection between the storage boxes and the installation box. The bottom of the storage boxes is equipped with casters.

[0008] The guiding mechanism, installed inside the mounting box, is used to guide the shredded packaging tape to another storage box after one storage box is full.

[0009] The adjustment mechanism is installed at both ends of the mounting box.

[0010] As a preferred embodiment of this utility model, the adjusting mechanism includes:

[0011] Multiple extension pieces are symmetrically installed at both ends of the mounting box;

[0012] Multiple threaded rods are installed by engaging with the threaded through holes of multiple extension parts, and shock-absorbing pads are provided at the ends of the threaded rods;

[0013] Multiple adjusting caps are coaxially mounted on multiple threaded rods, and the adjusting caps are equipped with anti-slip structures.

[0014] As a preferred embodiment of this utility model, when the adjustment mechanism is detached from the ground, the casters on the storage box support the mounting box, and the device is moved as a whole by multiple casters.

[0015] When the adjustment mechanism comes into contact with the ground, it locks and supports the working position of the mounting box.

[0016] As a preferred embodiment of this utility model, the guiding mechanism includes:

[0017] The connecting shaft is rotatably installed inside the cavity of the mounting box, and the axis of the connecting shaft is set parallel to the length direction of the limiting beam;

[0018] A guide plate, mounted on the connecting shaft, is used to guide the shredded packaging tape into the storage box on one side.

[0019] The drive mechanism, mounted on the connecting shaft, is used to drive the guide plate on the connecting shaft to rotate.

[0020] As a preferred embodiment of this utility model, the driving mechanism includes:

[0021] The drive arm is fixedly mounted on the connecting shaft;

[0022] The drive rod is threaded into the inner hole of the drive arm, and the locating pin on the drive rod is plugged into the locating hole of the mounting box.

[0023] As a preferred embodiment of this utility model, the mounting box is equipped with a limiting component, which is used to limit the rotation range of the drive arm.

[0024] As a preferred embodiment of this utility model, the storage box is provided with a push-pull handle.

[0025] As a preferred embodiment of this utility model, the mounting box has observation windows at both ends of the slot.

[0026] Compared with the prior art, the beneficial effects of this utility model are as follows: the crushing mechanism crushes the packaging tape, facilitating subsequent collection; the installation box serves as a transition cavity, and the limiting beam restricts the displacement range of the two collection boxes, ensuring that the collection boxes are stably installed in the through slot of the installation box via the slide rail; the door lock can lock the connection position between the collection box and the installation box to prevent waste leakage; the universal wheels at the bottom of the collection box facilitate movement and transfer after it is full; the two collection boxes can be used alternately to achieve continuous collection, avoiding downtime for box replacement and affecting efficiency; the guiding mechanism can guide the waste to another collection box after one collection box is full, ensuring collection continuity; the adjustment mechanism can adapt to different installation scenarios, improving the applicability of the device and significantly improving the collection and processing efficiency of packaging tape waste. Attached Figure Description

[0027] Figure 1 This is a schematic diagram of the electrolytic copper packaging tape waste collection device of this utility model at the first angle;

[0028] Figure 2 This is a schematic diagram of the electrolytic copper packaging tape waste collection device of this utility model at a second angle;

[0029] Figure 3 This is a schematic diagram of the electrolytic copper packaging tape waste collection device in this utility model from a third angle.

[0030] Figure 4 This is a schematic diagram of the electrolytic copper packaging tape waste collection device in this utility model, viewed in cross-section from the mounting box.

[0031] Figure 5 This is a schematic diagram of the storage box structure of the electrolytic copper packaging tape waste collection device in this utility model;

[0032] The following are labels in the attached diagram: 1. Crushing mechanism; 2. Mounting box; 3. Limiting beam; 4. Storage box; 5. Slide rail; 6. Door lock; 7. Caster wheel; 8. Guide mechanism; 81. Connecting shaft; 82. Deflector plate; 83. Drive mechanism; 83a. Drive arm; 83b. Drive rod; 84. Limiting component; 9. Adjustment mechanism; 91. Extension component; 92. Threaded rod; 93. Shock-absorbing pad; 94. Adjustment cap; 10. Push-pull handle; 11. Observation window. Detailed Implementation

[0033] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.

[0034] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Those skilled in the art can make similar extensions without departing from the spirit of the present invention. Therefore, the present invention is not limited to the specific embodiments disclosed below.

[0035] like Figures 1 to 5 As shown, this embodiment provides a waste collection device for electrolytic copper packaging tape cutting, including:

[0036] The crushing mechanism 1 is the core processing unit of the entire device, used to crush the packaging tape.

[0037] Mounting box 2, which serves as a transition and distribution cavity for the crushed waste, is installed at the bottom of the crushing mechanism 1. A limiting beam 3 is provided in the middle of mounting box 2.

[0038] Two storage boxes 4 are used to collect the shredded packaging tape waste. They are installed at the through slots at both ends of the installation box 2 via slide rails 5. The displacement range between the storage box 4 and the installation box 2 is limited by the limiting beam 3. The storage box 4 is equipped with a door lock 6 for locking the connection position between the storage box 4 and the installation box 2. The bottom of the storage box 4 is equipped with casters 7. There are two storage boxes 4 for alternating use.

[0039] The guide mechanism 8 is installed inside the mounting box 2. The guide mechanism 8 is used to guide the shredded packaging tape to another storage box 4 after one storage box 4 is full.

[0040] Adjustment mechanism 9 is installed at both ends of mounting box 2;

[0041] In this embodiment, the crushing mechanism 1 crushes the packaging tape to facilitate subsequent collection. The mounting box 2 serves as a transition cavity, and together with the limiting beam 3, it restricts the displacement range of the two collection boxes 4, ensuring that the collection box 4 is stably installed in the through slot of the mounting box 2 via the slide rail 5. The door lock 6 can lock the connection position between the collection box 4 and the mounting box 2 to prevent waste leakage. The universal wheels 7 at the bottom of the collection box 4 facilitate movement and transfer after it is full. The two collection boxes 4 can be used alternately to achieve continuous collection, avoiding downtime for box replacement and affecting efficiency. The guiding mechanism 8 can guide the waste to the other collection box after one collection box 4 is full, ensuring collection continuity. The adjustment mechanism 9 can adapt to different installation scenarios, improve the applicability of the device, and greatly improve the collection and processing efficiency of packaging tape waste.

[0042] As a preferred embodiment of the above technical solution, such as Figures 1 to 4 As shown, the adjustment mechanism 9 includes:

[0043] Multiple extension pieces 91 are symmetrically installed at both ends of the mounting box 2;

[0044] Multiple threaded rods 92 are respectively installed in conjunction with the threaded through holes of multiple extensions 91, and shock-absorbing pads 93 are provided at the ends of the threaded rods 92;

[0045] Multiple adjusting caps 94 are coaxially mounted on multiple threaded rods 92, and the adjusting caps 94 are provided with anti-slip structures.

[0046] When the adjustment mechanism 9 is detached from the ground, the casters 7 on the storage box 4 support the mounting box 2, and the device is moved as a whole by multiple casters 7.

[0047] When the adjustment mechanism 9 contacts the ground, it locks and supports the working position of the mounting box 2.

[0048] In this embodiment, multiple extension pieces 91 are symmetrically installed at both ends of the mounting box 2. The threaded rod 92 is connected to the extension piece 91 by thread. The extension of the threaded rod 92 can be easily adjusted by rotating the adjusting cap 94 with anti-slip structure, so as to make the adjusting mechanism 9 contact or detach from the ground. When the adjusting mechanism 9 is detached from the ground, the universal wheel 7 of the storage box 4 supports the device, which is convenient for overall movement and transportation. When the adjusting mechanism 9 is in contact with the ground, the threaded rod 92 and the shock-absorbing pad 93 form a stable locking support for the mounting box 2, which reduces the vibration of the crushing mechanism 1 during operation and prevents the device from shifting. The adjusting cap 94 with anti-slip structure improves the ease of operation. The overall structure takes into account both mobility and working stability, and enhances the practicality of the device.

[0049] As a preferred embodiment of the above technical solution, such as Figures 1 to 4 As shown, the guide mechanism 8 includes:

[0050] The connecting shaft 81 is rotatably installed inside the cavity of the mounting box 2, and the axis of the connecting shaft 81 is parallel to the length direction of the limiting beam 3;

[0051] The guide plate 82 is installed on the connecting shaft 81. The guide plate 82 is used to guide the shredded packaging tape into the storage box 4 on one side.

[0052] The drive mechanism 83 is mounted on the connecting shaft 81 and is used to drive the guide plate 82 on the connecting shaft 81 to rotate.

[0053] In this embodiment, the connecting shaft 81 is rotatably installed in the cavity of the mounting box 2 and its axis is parallel to the length direction of the limiting beam 3, providing stable rotational support for the guide plate 82. The guide plate 82 is installed on the connecting shaft 81 and can be rotated with the connecting shaft 81 under the drive mechanism 83, flexibly switching the guiding direction and accurately guiding the waste into one side of the collection box 4. The drive mechanism 83 ensures that when one collection box 4 is full, it can be quickly switched to another to ensure the continuity of waste collection and avoid downtime caused by changing boxes.

[0054] As a preferred embodiment of the above technical solution, such as Figures 2 to 4As shown, the drive mechanism 83 includes:

[0055] The drive arm 83a is fixedly mounted on the connecting shaft 81;

[0056] The drive rod 83b is threaded into the inner hole of the drive arm 83a, and the locating pin on the drive rod 83b is plugged into the locating hole of the mounting box 2.

[0057] Mounting box 2 is equipped with a limiting component 84, which is used to limit the rotation range of drive arm 83a;

[0058] In this embodiment, the drive arm 83a is fixed on the connecting shaft 81. Rotating the drive rod 83b can drive the drive arm 83a and the connecting shaft 81 to rotate, thereby switching the direction of the guide plate 82. The positioning pin of the drive rod 83b is plugged into the positioning hole of the mounting box 2, which can securely lock the guide position of the guide plate 82 and prevent the guide plate 82 from shifting due to the impact of waste materials during operation. The limiting member 84 restricts the rotation range of the drive arm 83a to prevent the guide plate 82 from over-rotating and exceeding the effective guiding range, ensuring that it accurately corresponds to the two storage boxes 4 on both sides.

[0059] As a preferred embodiment of the above technical solution, such as Figures 1 to 5 As shown, the storage box 4 is equipped with a push-pull handle 10;

[0060] In this embodiment, the push-pull handle 10 on the storage box 4 provides a convenient force application point for the pulling and moving of the storage box 4, making it easy for the operator to easily pull out or push the storage box 4 from the through slot of the mounting box 2 through the slide rail 5. With the help of the casters 7, it is easier to move and transport the storage box 4 after it is full, improve the operational efficiency of rotating the storage box 4, and at the same time ensure the accurate docking of the storage box 4 and the mounting box 2, avoiding the spillage of waste materials due to inconvenient handling.

[0061] As a preferred embodiment of the above technical solution, such as Figures 1 to 4 As shown, the mounting box 2 has observation windows 11 at both ends of the slot;

[0062] In this embodiment, the installation box 2 is provided with observation windows 11 at both ends of the slot, which allows the operator to directly observe the amount of shredded packaging waste collected in the two end collection boxes 4. This facilitates timely monitoring of the fullness of the collection boxes 4, thereby enabling advance preparation for the rotation of the collection boxes 4 and avoiding the impact of overflow on collection efficiency.

[0063] It should be noted that the above embodiments are only used to illustrate the technical solution of this utility model and are not intended to limit it. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solution of this utility model without departing from the spirit and scope of the technical solution of this utility model, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.

Claims

1. An electrolytic copper strip trimming scrap collecting device characterized by, include: The crushing mechanism (1) is used to crush the packaging tape; The mounting box (2) is installed at the bottom of the crushing mechanism (1), and a limiting beam (3) is provided in the middle of the mounting box (2). Two storage boxes (4) are respectively installed in the through slots at both ends of the mounting box (2) via slide rails (5). The storage box (4) and the mounting box (2) are connected by a limiting beam (3) to restrict their displacement range. The storage box (4) is equipped with a door lock (6) for locking the connection position between the storage box (4) and the mounting box (2). The bottom of the storage box (4) is equipped with casters (7). A guiding mechanism (8) is installed inside the mounting box (2). The guiding mechanism (8) is used to guide the shredded packaging tape to another storage box (4) after one of the storage boxes (4) is full. Adjustment mechanism (9) is installed at both ends of the mounting box (2).

2. The electrolytic copper strip cutting scrap collection apparatus of claim 1, wherein, The adjustment mechanism (9) includes: Multiple extension pieces (91) are symmetrically installed at both ends of the mounting box (2); Multiple threaded rods (92) are respectively fitted with threaded through holes of multiple extension members (91), and shock-absorbing pads (93) are provided at the ends of the threaded rods (92). Multiple adjusting caps (94) are coaxially mounted on multiple threaded rods (92), and the adjusting caps (94) are provided with anti-slip structures.

3. The electrolytic copper strip cutting scrap collection apparatus of claim 2, wherein, When the adjustment mechanism (9) is detached from the ground, the casters (7) on the storage box (4) support the mounting box (2), and the device is moved as a whole by the multiple casters (7); When the adjustment mechanism (9) comes into contact with the ground, it locks and supports the working position of the mounting box (2).

4. The electrolytic copper strip cutting scrap collection apparatus of claim 1 wherein, The guiding mechanism (8) includes: The connecting shaft (81) is rotatably installed inside the cavity of the mounting box (2), and the axis of the connecting shaft (81) is parallel to the length direction of the limiting beam (3); A guide plate (82) is installed on the connecting shaft (81) and is used to guide the shredded packaging tape into the storage box (4) on one side; The drive mechanism (83) is mounted on the connecting shaft (81) and is used to drive the guide plate (82) on the connecting shaft (81) to rotate.

5. The electrolytic copper strip cutting scrap collection apparatus of claim 4, wherein, The drive mechanism (83) includes: The drive arm (83a) is fixedly mounted on the connecting shaft (81); The drive rod (83b) is threaded into the inner hole of the drive arm (83a), and the locating pin on the drive rod (83b) is plugged into the locating hole of the mounting box (2).

6. The electrolytic copper strip cutting scrap collection apparatus of claim 5, wherein, The mounting box (2) is equipped with a limiting member (84), which is used to limit the rotation range of the drive arm (83a).

7. The electrolytic copper strip cutting scrap collection apparatus of claim 1 wherein, The storage box (4) is equipped with a push-pull handle (10).

8. The electrolytic copper strip cutting scrap collection apparatus of claim 1 wherein, The mounting box (2) has observation windows (11) at both ends of the slot.