Terminal machine capable of automatically collecting waste
By designing a terminal crimping machine that automatically collects waste materials, and utilizing a cleaning drum and negative pressure system to achieve automatic waste removal, the problem of untimely waste disposal in traditional terminal crimping machines is solved, thereby improving production efficiency and equipment cleanliness.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI JIUGONG ELECTRONIC EQUIPMENT CO LTD
- Filing Date
- 2025-05-14
- Publication Date
- 2026-06-05
Smart Images

Figure CN224322047U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of terminal processing equipment technology, and in particular to a terminal machine that can automatically collect waste materials. Background Technology
[0002] During the terminal manufacturing process, a large amount of waste is generated in the processing steps. Currently, most traditional terminal machines have significant shortcomings in waste disposal. On the one hand, they rely on manual waste removal, which not only increases labor costs but also leads to waste accumulation in the processing area due to untimely removal. Accumulated waste may mix with the products being processed, seriously affecting product quality and increasing the defect rate. On the other hand, waste accumulation can also interfere with the normal operation of the equipment, affect processing accuracy, and shorten the equipment's lifespan. In addition, scattered waste can deteriorate the working environment and pose a potential threat to the health of operators. Utility Model Content
[0003] This utility model addresses the shortcomings of existing technologies by providing a terminal crimping machine that can automatically collect waste materials. The specific technical solution is as follows:
[0004] A terminal block machine capable of automatically collecting waste includes a base and a mold assembly located above the base. A cleaning drum is provided on the top of the base and outside the mold assembly. The cleaning drum can rotate towards the horizontal plane of the base. A waste bin is provided at the bottom of the base. An L-shaped receiving pipe penetrating the base is provided inside the waste bin. A first negative pressure part is also provided on the waste bin to generate negative pressure inside the waste bin. An annular exhaust manifold is provided on the cleaning drum. Several exhaust branch pipes are installed on the inner side of the annular exhaust manifold. A second negative pressure part is provided on the annular exhaust manifold. The first negative pressure part is used to generate negative pressure inside the annular exhaust manifold.
[0005] As an improvement to the above technical solution: the mold assembly includes an upper mold and a lower mold arranged facing each other, a top seat is installed on the base, a hydraulic cylinder is installed on the top seat, the bottom output rod of the hydraulic cylinder is connected to the top of the upper mold, a cutting knife is installed on the upper mold through a hydraulic telescopic rod, and the lower mold is installed on the top of the base.
[0006] As an improvement to the above technical solution: a bottom arc-shaped cleaning brush is installed on the inner bottom of the cleaning drum, and a top arc-shaped cleaning brush is installed on the inner top of the cleaning drum. The bottom side of the bottom arc-shaped cleaning brush is in contact with the top of the base, and one side of the top arc-shaped cleaning brush is in contact with the inner side of the cleaning drum.
[0007] As an improvement to the above technical solution: multiple extraction branch pipes are arranged at an angle downwards.
[0008] As an improvement to the above technical solution: a wire mesh frame is provided on the bottom side of the waste bin, the top end of the L-shaped receiving pipe is located below the cutting blade, the bottom end of the L-shaped receiving pipe is located above the wire mesh frame, and the first negative pressure part includes a negative pressure fan installed on the waste bin, with the exhaust pipe of the negative pressure fan penetrating into the interior of the waste bin.
[0009] As an improvement to the above technical solution: the second negative pressure section includes a vacuum cleaner installed on the cleaning drum, and the vacuum cleaner's suction pipe is connected to the annular suction main pipe through a pipeline.
[0010] As an improvement to the above technical solution, it also includes a rotating assembly for driving the cleaning drum to rotate. The rotating assembly includes a drive motor mounted on the base. The bottom end of the cleaning drum is rotatably connected to the top of the base. The outer surface of the cleaning drum has a first gear. The bottom output shaft of the drive motor is connected to a second gear. The second gear and the first gear mesh with each other.
[0011] The beneficial effects of this utility model are:
[0012] This application achieves automatic waste collection through the coordinated operation of the cleaning drum, annular exhaust manifold, exhaust branch pipes, waste bin, and L-shaped collection pipe, significantly reducing manual intervention and greatly improving production efficiency. Furthermore, the bottom and top arc-shaped cleaning brushes ensure comprehensive cleaning of the base surface and inner wall of the drum during rotation, preventing waste residue and maintaining the cleanliness of the equipment's working area. Attached Figure Description
[0013] Figure 1 This is a schematic diagram of the overall structure of the present invention. Figure 1 ;
[0014] Figure 2 This is a schematic diagram of the overall structure of the present invention. Figure 2 ;
[0015] Figure 3 This is a schematic diagram of the waste bin in this utility model.
[0016] Reference numerals: 1. Base; 2. Waste bin; 201. L-shaped receiving pipe; 202. Mesh frame; 203. Negative pressure fan; 3. Top seat; 4. Hydraulic cylinder; 5. Upper mold; 501. Cutting knife; 6. Lower mold; 7. Cleaning drum; 701. First gear; 8. Vacuum cleaner; 9. Annular exhaust manifold; 901. Exhaust branch pipe; 10. Top arc-shaped cleaning brush; 11. Bottom arc-shaped cleaning brush; 12. Drive motor; 13. Second gear. Detailed Implementation
[0017] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present utility model and are not intended to limit the present utility model.
[0018] Example
[0019] Please refer to Figures 1-3 The core objective of this utility model is to provide a terminal crimping machine that can automatically collect waste materials, aiming to solve the problem of waste cleaning in traditional terminal crimping machines, realize automatic and efficient waste collection, improve production efficiency, ensure product quality, and optimize the working environment.
[0020] The terminal crimping machine of this application, capable of automatically collecting waste materials, mainly includes a base 1 and a mold assembly disposed above the base 1. A cleaning drum 7 is installed on the top of the base 1 and around the outer side of the mold assembly. This cleaning drum 7 has the function of rotating along the horizontal plane of the base 1. A waste bin 2 is disposed at the bottom of the base 1, and an L-shaped receiving pipe 201 penetrating the base 1 is installed inside the waste bin 2. The waste bin 2 is equipped with a first negative pressure section, the function of which is to create a negative pressure environment inside the waste bin 2. An annular exhaust manifold 9 is disposed on the cleaning drum 7, and multiple exhaust branch pipes 901 are installed inside the annular exhaust manifold 9. A second negative pressure section is provided on the annular exhaust manifold 9 to generate negative pressure inside the annular exhaust manifold 9.
[0021] The mold assembly consists of an upper mold 5 and a lower mold 6 arranged opposite each other. A top seat 3 is fixedly installed on the base 1, and a hydraulic cylinder 4 is installed on the top seat 3. The bottom output rod of the hydraulic cylinder 4 is tightly connected to the top of the upper mold 5 by high-strength bolts to ensure stable power transmission. A cutting blade 501 is installed on the upper mold 5 through a hydraulic telescopic rod, and the lower mold 6 is firmly installed on the top of the base 1 by bolts to ensure the stability and accuracy of the mold during operation.
[0022] A bottom arc-shaped cleaning brush 11 is welded to the bottom inner side of the cleaning drum 7, and a top arc-shaped cleaning brush 10 is welded to the top inner side as well. The bottom side of the bottom arc-shaped cleaning brush 11 is in close contact with the top surface of the base 1, and can effectively clean the waste on the surface of the base 1 when the cleaning drum 7 rotates.
[0023] One side of the top arc-shaped cleaning brush 10 contacts the inner wall of the cleaning drum 7 to prevent waste from adhering to the inner wall of the cleaning drum 7. During rotation, the bottom arc-shaped cleaning brush 11 can also gradually push the waste on the surface of the base 1 into the L-shaped collection pipe 201 to achieve preliminary collection of waste.
[0024] Multiple extraction branch pipes 901 are installed at an angle downwards inside the annular extraction main pipe 9. This design facilitates the smooth entry of waste into the extraction branch pipes 901 under negative pressure, thereby improving waste collection efficiency.
[0025] The waste bin 2 has a wire mesh frame 202 installed on the bottom inside to hold the collected waste and facilitate subsequent cleaning. The top of the L-shaped receiving pipe 201 is precisely located below the cutting blade 501, ensuring that the waste generated during the cutting process can fall directly into the L-shaped receiving pipe 201.
[0026] The bottom end of the L-shaped receiving pipe 201 is located above the wire mesh frame 202, allowing the waste material to smoothly enter the wire mesh frame 202 inside the waste bin 2. The first negative pressure section consists of a negative pressure fan 203 installed on the waste bin 2. The exhaust pipe of the negative pressure fan 203 extends into the interior of the waste bin 2 through a sealed joint, ensuring the sealing and stability of the negative pressure environment.
[0027] The second negative pressure section consists of a vacuum cleaner 8 installed on the cleaning drum 7. The suction pipe of the vacuum cleaner 8 is connected to the annular suction main pipe 9 through a negative pressure resistant pipe to ensure the stability of the negative pressure in the annular suction main pipe 9 and to achieve effective suction of waste materials.
[0028] It also includes a rotating assembly for driving the cleaning drum 7 to rotate. The rotating assembly consists of a drive motor 12 mounted on the base 1. The bottom end of the cleaning drum 7 is rotatably connected to the top of the base 1 via a deep groove ball bearing to ensure the smooth rotation of the cleaning drum 7.
[0029] The outer surface of the cleaning drum 7 is machined with a first gear 701, and the bottom output shaft of the drive motor 12 is connected to a second gear. The second gear and the first gear 701 mesh with each other, and the stable rotation of the cleaning drum 7 is achieved by the operation of the drive motor 12.
[0030] Specifically, during the terminal processing, when terminal cutting is required, the hydraulic cylinder 4 is activated, pushing the upper mold 5 downward. The cutting blade 501 on the upper mold 5 cuts the terminal placed on the lower mold 6, and the waste material generated from the cutting falls off.
[0031] Simultaneously, the drive motor 12 can be started, driving the second gear 13 to rotate. Since the second gear 13 meshes with the first gear 701, it drives the cleaning drum 7 to rotate. During the rotation of the cleaning drum 7, the bottom arc-shaped cleaning brush 11 and the top arc-shaped cleaning brush 10 clean the surface of the base 1 and the inner wall of the cleaning drum 7, respectively. The bottom arc-shaped cleaning brush 11 gradually pushes the waste material on the surface of the base 1 into the L-shaped receiving pipe 201.
[0032] By starting the vacuum cleaner 8 and the negative pressure fan 203, the vacuum cleaner 8 creates a negative pressure in the annular exhaust manifold 9 and the exhaust branch pipe 901, sucking the waste generated from cutting into the exhaust branch pipe 901, and then conveying it into the vacuum cleaner through the annular exhaust manifold 9.
[0033] The negative pressure fan 203 creates negative pressure inside the waste bin 2, drawing in the waste falling from the cleaning drum 7 and the waste pushed into the L-shaped collection pipe 201 by the bottom arc-shaped cleaning brush 11. The waste is then collected on the mesh frame 202 inside the waste bin 2, completing the automatic waste collection process. A door is also installed on the waste bin 2, allowing for easy removal of the waste from the mesh frame 202.
[0034] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A terminal block machine capable of automatically collecting waste materials, comprising a base (1) and a mold assembly located above the base (1), characterized in that, A cleaning drum (7) is provided on the top of the base (1) and on the outside of the mold assembly. The cleaning drum (7) can rotate in the direction of the horizontal plane of the base (1). The bottom of the base (1) has a waste bin (2). An L-shaped receiving pipe (201) that penetrates the base (1) is provided in the waste bin (2). The waste bin (2) is also provided with a first negative pressure part, which is used to generate negative pressure inside the waste bin (2). The cleaning drum (7) has an annular exhaust manifold (9). Several exhaust branch pipes (901) are installed on the inner side of the annular exhaust manifold (9). The annular exhaust manifold (9) is provided with a second negative pressure part. The first negative pressure part is used to generate negative pressure inside the annular exhaust manifold (9).
2. The terminal block machine capable of automatically collecting waste materials according to claim 1, characterized in that: The mold assembly includes an upper mold (5) and a lower mold (6) arranged facing each other. A top seat (3) is installed on the base (1). A hydraulic cylinder (4) is installed on the top seat (3). The bottom output rod of the hydraulic cylinder (4) is connected to the top of the upper mold (5). A cutting knife (501) is installed on the upper mold (5) through a hydraulic telescopic rod. The lower mold (6) is installed on the top of the base (1).
3. The terminal block machine capable of automatically collecting waste materials according to claim 2, characterized in that: A bottom arc-shaped cleaning brush (11) is installed on the inner bottom of the cleaning drum (7), and a top arc-shaped cleaning brush (10) is installed on the inner top of the cleaning drum (7). The bottom side of the bottom arc-shaped cleaning brush (11) is in contact with the top surface of the base (1), and one side of the top arc-shaped cleaning brush (10) is in contact with the inner wall of the cleaning drum (7).
4. The terminal block machine capable of automatically collecting waste materials according to claim 3, characterized in that: The multiple extraction branch pipes (901) are arranged at an angle downwards.
5. The terminal block machine capable of automatically collecting waste materials according to claim 4, characterized in that: The waste bin (2) has a mesh frame (202) on its inner bottom side. The top end of the L-shaped receiving pipe (201) is located below the cutting knife (501), and the bottom end of the L-shaped receiving pipe (201) is located above the mesh frame (202). The first negative pressure part includes a negative pressure fan (203) installed on the waste bin (2). The exhaust pipe of the negative pressure fan (203) extends into the interior of the waste bin (2).
6. The terminal block machine capable of automatically collecting waste materials according to claim 5, characterized in that: The second negative pressure unit includes a vacuum cleaner (8) installed on the cleaning drum (7), and the suction pipe of the vacuum cleaner (8) is connected to the annular suction manifold (9) through a pipe.
7. The terminal block machine capable of automatically collecting waste materials according to claim 6, characterized in that: It also includes a rotating assembly for driving the cleaning drum (7) to rotate. The rotating assembly includes a drive motor (12) mounted on the base (1). The bottom end of the cleaning drum (7) is rotatably connected to the top of the base (1). The outer surface of the cleaning drum (7) has a first gear (701). The bottom output shaft of the drive motor (12) is connected to a second gear (13). The second gear (13) and the first gear (701) mesh with each other.