Labor-saving cable stripping machine workbench
By setting a limiting channel and a cable feeding assembly on the workbench of the cable stripping machine, and using a motor-driven gear to support and limit the cable, the problems of low stripping efficiency and positional deviation of large cables are solved, and an efficient and stable cable stripping process is achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUBEI HONGQI ZHONGYI SPECIAL CABLE CO LTD
- Filing Date
- 2025-07-07
- Publication Date
- 2026-06-23
AI Technical Summary
In the existing technology, stripping large cables is inefficient and labor-intensive, and it can easily cause the cable to shift and damage the stripping machine blades.
Design a labor-saving cable stripping machine workbench. By setting a limiting channel and a cable feeding assembly on the main body of the cable stripping machine, the cable feeding gear and adjusting gear driven by the motor are used to support and limit the cable, so as to realize automatic cable feeding and position correction.
It improves cable stripping efficiency, reduces worker workload, avoids the risk of copper wires inside the cable hitting the blade, and ensures the stability of the stripping process.
Smart Images

Figure CN224401033U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cable recycling technology, specifically to a labor-saving cable stripping machine workbench. Background Technology
[0002] When cables are recycled, their thick outer sheaths need to be stripped to remove the copper core inside. This requires a cable stripping machine. Thinner cables are lighter and can be easily stripped manually by holding them and feeding them into the machine. However, some cables, such as large cables, are much larger and heavier. Current methods involve cutting them into two- to three-meter lengths, then having one or two workers lift them and feed them into the stripping machine to remove the outermost thick sheath. During stripping, workers must continuously hold and push the cable forward. After stripping one cable, another is stripped. This method requires cutting the cable into sections, resulting in slow stripping efficiency. Furthermore, the weight of the cables is physically demanding, and after repeated feeding, worker fatigue can cause the cable to shift position within the stripping machine, potentially damaging the blades by colliding with the copper wires inside the cable. Therefore, a solution is needed to address these issues. Utility Model Content
[0003] To address the shortcomings of existing technologies, this utility model provides a labor-saving cable stripping machine workbench. By setting the main body of the cable stripping machine on a labor-saving workbench, the cable is supported. Furthermore, the cable feeding assembly and adjustment assembly, together with the limiting channel, restrict the cable, thereby achieving automatic cable feeding, saving workers' physical strength, and limiting the position of the cable to prevent damage to the blades caused by displacement of the internal copper wires.
[0004] According to an embodiment of this utility model, a labor-saving cable stripping machine workbench includes a cable stripping machine body and a base plate. The cable stripping machine body is disposed at one end of the base plate and includes a limiting channel disposed at the feeding end of the stripping machine body. The limiting channel includes a first side plate and a second side plate arranged vertically opposite each other. A through groove is provided in a portion of the relative positions of the first side plate and the second side plate. A cable feeding assembly is provided outside the through groove of the first side plate. An adjustment assembly is suspended perpendicular to the conveying direction outside the through groove of the second side plate. The adjustment assembly can move closer to or away from the limiting channel in the direction perpendicular to the conveying direction. The cable feeding assembly includes a cable feeding gear that is horizontally rotatably disposed at the through groove of the first side plate. One side of the cable feeding gear extends into the through groove into the limiting channel. A motor is also vertically disposed outside the cable feeding gear. The output end of the motor drives and connects to the cable feeding gear. The adjustment assembly includes a push plate that is parallel to the outside of the through groove of the second side plate. Electric push rods are fixed between the two ends of the push plate and the second side plate. The push plate is suspended and horizontally rotatably disposed at the through groove position.
[0005] The technical principle of this utility model is as follows: A limiting channel is set at one end of the cable stripping machine body to support the cable, and a cable feeding component and an adjusting component are set on the limiting channel. When a thicker cable is lifted by the worker, one end of the cable is placed directly in the limiting channel. Then the adjusting component is opened, the electronic push rod retracts, and the adjusting component moves vertically towards the second side plate. The adjusting gear passes through the through groove and works with the cable feeding gear to clamp the outer surface of the cable, thereby limiting and fixing the cable. Then the motor on the outside of the cable feeding component is started. The motor drives the cable feeding gear to rotate. The cable feeding gear works with the adjusting gear that abuts against the cable to push the cable towards the feed end of the cable stripping machine.
[0006] The beneficial effects of this utility model are as follows: the cable feeding assembly and the adjustment assembly, together with the limiting channel formed by the outer sides of the first side plate and the second side plate arranged opposite to each other on the base plate, support the cable and limit its movement. Since the cable itself has a certain degree of flexibility, only the end of the cable is initially fed into the limiting channel without cutting the cable. The remaining cable body will be continuously fed under the action of the cable feeding gear and the adjustment gear, so that the cable stripper can continuously strip the cable. This reduces the labor intensity of workers and can also automatically correct the position of the cable, preventing the copper wires inside the cable from hitting the blades of the cable stripper body. Attached Figure Description
[0007] Figure 1 This is a top view of an embodiment of the present utility model.
[0008] Figure 2 This is a side view of the first side plate of this utility model.
[0009] Figure 3 This is a side view of the second side plate of this utility model.
[0010] In the above attached figures:
[0011] 1. Cable stripping machine body;
[0012] 2. Base plate;
[0013] 3. Limiting channel; 31. First side plate; 32. Second side plate; 33. Guide plate;
[0014] 4. Cable feeding gear;
[0015] 5. Adjusting gear; 51. Push plate; 52. Electric push rod; 53. Support plate;
[0016] 6. Motor; 61. Reduction gear;
[0017] 7. Toothed belt;
[0018] 8. Through groove. Detailed Implementation
[0019] The technical solution of this utility model will be further described below with reference to the accompanying drawings and embodiments.
[0020] like Figure 1 and Figure 2 as well as Figure 3As shown, this utility model embodiment proposes a labor-saving cable stripping machine workbench, including a cable stripping machine body 1. The cable stripping machine body 1 can be an existing model used for stripping large cables, such as a cable stripping machine with a vertically arranged circular blade, which can cut the cable sheath into two sides. It also includes a base plate 2, with the cable stripping machine body 1 disposed at one end of the base plate 2. Furthermore, it includes a limiting channel 3 disposed at the feeding end of the cable stripping machine body 1. The limiting channel 3 includes a first side plate 31 and a second side plate 32 arranged vertically opposite each other. A through groove 8 is provided in a portion of the relative positions on the first side plate 31 and the second side plate 32. A cable feeding assembly is provided outside the through groove 8 of the first side plate 31, and an adjustment assembly is suspended perpendicular to the conveying direction outside the through groove 8 of the second side plate 32. The adjustment assembly can be moved closer to or further away from the limiting channel 3 perpendicular to the conveying direction. The displacement on the limiting channel 3 is achieved by the cable feeding assembly, which includes a cable feeding gear 4 horizontally rotatably disposed at the through groove 8 of the first side plate 31. One side of the cable feeding gear 4 extends into the through groove 8 into the limiting channel 3. A motor 6 is also vertically disposed on the outside of the cable feeding gear 4. The output end of the motor 6 drives and connects to the cable feeding gear 4. The adjustment assembly includes a push plate 51 parallel to the outside of the through groove 8 of the second side plate 32. Electric push rods 52 are fixed between the two ends of the push plate 51 and the second side plate 32. The push plate 51 is suspended in the air corresponding to the through groove 8 and is horizontally rotatably disposed with an adjustment gear 5.
[0021] A limiting channel 3 is set at one end of the cable stripping machine body 1 to support the cable. A cable feeding assembly and an adjusting assembly are installed on the limiting channel 3. When a thicker cable is lifted by the worker, one end of the cable is placed directly into the limiting channel 3. Then, the adjusting assembly is opened, the electric push rod retracts, and the adjusting assembly moves vertically towards the second side plate 32. The adjusting gear 5 passes through the through groove 8 and, in conjunction with the cable feeding gear 4, clamps the outer surface of the cable, thus achieving cable limiting and fixing. Since the electric push rod 52 controls the position of the adjusting gear 5, a suitable clamping distance can be selected according to the cable size. After the cable is fixed, the motor 6 on the outside of the cable feeding assembly is started. The motor 6 drives the cable feeding gear 4 to rotate. Wheel 4, in conjunction with adjusting gear 5, pushes the cable towards the feed end of the cable stripper. Through the aforementioned cable feeding assembly and adjusting assembly, together with the limiting channel 3 formed by the outer sides of the first side plate 31 and the second side plate 32 oppositely arranged on the base plate 2, the cable is supported and limited. Since the cable itself has a certain degree of flexibility, only the end of the cable is initially fed into the limiting channel 3 without cutting the cable. The remaining cable body will be continuously fed under the action of the cable feeding gear 4 and the adjusting gear, so that the cable stripper can continuously strip the cable. This reduces the labor intensity of workers and can also automatically correct the position of the cable, preventing the copper wires inside the cable from hitting the blades of the cable stripper body 1.
[0022] Furthermore, such as Figure 1 and Figure 2 as well as Figure 3 As shown, there are two cable feeding gears 4, and a transmission gear is coaxially mounted on the top of each cable feeding gear 4. The two transmission gears are connected by a toothed belt 7. There are also two adjusting gears 5, and their corresponding structures are identical to those of the cable feeding gears 4. The toothed belt 7 ensures that the rotation directions of the two cable feeding gears 4 or adjusting gears 5 are aligned. The arrangement of two cable feeding gears 4 or adjusting gears 5 is not limited to two; multiple cable feeding gears 4 and corresponding adjusting gears 5 can be used depending on the actual application. This results in a larger contact area with the cable surface, greater friction, and a better cable pushing effect.
[0023] Furthermore, such as Figure 1 and Figure 2 As shown, one of the cable feeding gears 4 also has a coaxial transmission gear at its bottom for power transmission. A reduction gear 61 is rotatably mounted on the adjacent base plate 2. The reduction gear 61 also has a transmission gear at its bottom and is connected to the transmission gear at the bottom of the cable feeding gear 4 via a toothed belt 7. The output end of the motor 6 has a transmission gear. The number of teeth of the reduction gear 61 is greater than that of the transmission gear at the output end of the motor 6. The transmission gear at the output end of the motor 6 meshes with the reduction gear 61. Through the above mechanism, the speed of the motor 6 is reduced while the torque is increased. Even if the adjusting component squeezes the cable, it will not affect the cable being pushed.
[0024] Furthermore, such as Figure 1 and Figure 3 As shown, the push plate 51 is provided with a support plate 53 extending vertically in the direction of the through groove 8 at the position corresponding to the through groove 8. The bottom of the adjusting gear 5 is rotatably set at the end of the support plate 53, and the adjusting gear 5 is suspended in the air by the support plate 53.
[0025] Furthermore, such as Figure 1 and Figure 2 As shown, the top of the first side plate 31 and the second side plate 32, which are away from the cable stripper body 1, are also provided with guide plates 33 vertically inclined. There are two guide plates 33 facing each other. When the worker lifts the end of the cable, since the guide plates 33 are inclined outward, it is convenient for the worker to place the cable in the limiting channel 3.
[0026] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions 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 solutions of this utility model without departing from the spirit and scope of the technical solutions 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. A labor-saving cable stripping machine workbench, comprising a cable stripping machine body, characterized in that: The system also includes a base plate, with the cable stripper body positioned at one end of the base plate. It also includes a limiting channel at the feed end of the stripper body. The limiting channel includes a first side plate and a second side plate vertically opposite each other. Partial areas of the first and second side plates at relative positions are provided with through grooves. A cable feeding assembly is located outside the through groove of the first side plate. An adjusting assembly is suspended perpendicularly to the conveying direction outside the through groove of the second side plate. The adjusting assembly can move closer to or further away from the limiting channel perpendicular to the conveying direction. The cable feeding assembly includes a cable feeding gear horizontally rotatably positioned at the through groove of the first side plate. One side of the cable feeding gear extends into the through groove and into the limiting channel. A motor is vertically positioned outside the cable feeding gear, and the output end of the motor drives and connects to the cable feeding gear. The adjusting assembly includes a push plate parallel to the outside of the through groove of the second side plate. Electric push rods are fixed between the two ends of the push plate and the second side plate. The push plate is suspended corresponding to the through groove position and horizontally rotatably equipped with an adjusting gear.
2. The labor-saving cable stripping machine workbench as described in claim 1, characterized in that: The cable feeding gear is provided in two parts, and a transmission gear is also coaxially provided on the top of the cable feeding gear. The two transmission gears are also provided with toothed belts for transmission connection.
3. The labor-saving cable stripping machine workbench as described in claim 2, characterized in that: The adjusting gear has two corresponding to the cable feeding gear, and the structure of the adjusting gear is the same as that of the cable feeding gear.
4. The labor-saving cable stripping machine workbench as described in claim 2, characterized in that: One of the cable-feeding gears also has a transmission gear coaxially mounted at its bottom, and a reduction gear is rotatably mounted on the base plate at an adjacent position. The reduction gear also has a transmission gear at its bottom and is connected to the transmission gear located at the bottom of the cable-feeding gear via a toothed belt.
5. The labor-saving cable stripping machine workbench as described in claim 4, characterized in that: The motor has a transmission gear at its output end, and the reduction gear has a larger number of teeth than the transmission gear at the motor output end. The transmission gear at the motor output end meshes with the reduction gear.
6. The labor-saving cable stripping machine workbench as described in claim 1, characterized in that: The push plate is provided with a support plate that extends vertically in the direction of the through groove at the position corresponding to the through groove, and the bottom of the adjusting gear is rotatably located at the end of the support plate.
7. The labor-saving cable stripping machine workbench as described in claim 1, characterized in that: The top of the first and second side plates, at the ends away from the cable stripper body, are respectively provided with guide plates that are vertically inclined.