A cable processing production placing device

By using a split-type reel design and guide wheel control of the guide assembly, the problems of uneven cable winding and inconvenient equipment maintenance in cable processing equipment are solved, achieving synchronization and uniformity of cable winding, and improving the convenience of the equipment and the quality of the cables.

CN224449855UActive Publication Date: 2026-07-03NANCHANG CABLE(NANNING) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NANCHANG CABLE(NANNING) CO LTD
Filing Date
2025-07-02
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

In the existing technology, the structural design of the moving groove and guide mechanism of the cable processing equipment has led to metal chips and dust easily entering the moving groove and slide during the cable processing process, affecting the stability and maintenance efficiency of the equipment.

Method used

The spool features a split design, with connecting blocks inserted into connecting slots and secured with connecting bolts, making assembly convenient and facilitating disassembly and replacement of the winding reel. The limiting plate is fitted onto the connecting shaft via a fixing sleeve and secured with locking bolts, ensuring that the winding reel and spool rotate synchronously. The guide assembly controls the even layering of the cable through guide wheels on the slide, avoiding localized stacking.

Benefits of technology

It enables convenient assembly and disassembly of the reel, facilitates maintenance, ensures the synchronization and uniformity of cable winding, reduces friction damage, and improves the convenience and practicality of cable storage.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to cable processing technical field, concretely relates to a kind of placing device for cable processing production, it includes: workbench, the top of workbench is fixed with base plate;Multiple winding assembly, including 2 support plates of interval arrangement, the reel of rotationally connected with support plate, the reel of being set in the middle part of reel and limiting disc;Wherein, the reel includes connecting shaft and dismounting connection connecting shaft end portion pivot;The reel is set on the connecting shaft;Transmission connection winding power component of the winding assembly.This utility model adopts reel assembly convenient with split design, winding reel is replaced and maintained conveniently for being convenient to dismount;Design limiting disc can ensure reel and reel synchronous rotation, avoid cable winding loose;In addition, guiding assembly cooperates with guide wheel to make cable even layered winding, avoid local stacking, and cable friction damage can be reduced, help to ensure cable quality, to improve the convenience and practicality of cable storage placement.
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Description

Technical Field

[0001] This utility model belongs to the field of cable processing technology, and specifically relates to a placement device for cable processing production. Background Technology

[0002] Cables are a general term for items such as optical cables and electrical cables. During their processing and production, the finished cables need to be wound onto cable reels. Existing technologies disclose cable winding and unwinding racks. For example, patent CN220684274U discloses a cable placement rack for cable processing and production. This rack uses components such as a rotating shaft, limiting rods, winding rollers, and a drive motor to pull the cable and wind it onto a winding roller for storage. A movable component allows for the movement of a movable base, facilitating the removal of the winding roller from the rotating shaft. Furthermore, a guiding component guides the cable, preventing stacking and tangling during winding, thus facilitating cable storage and placement. The cable arrangement is more uniform, making it easier for later use and improving the convenience of using the cable placement rack.

[0003] Undeniably, the cable placement rack for cable processing disclosed in this patent can achieve the aforementioned effects, but it still has certain shortcomings: To move the moving base, a sliding groove needs to be opened on the base to slide and connect with the moving block at the bottom of the moving base; to improve the stability of the moving base's movement, a slider is provided on the side wall of the moving block, and a sliding groove is opened in the moving groove to slide and connect with the slider. However, opening the sliding groove in the moving groove is relatively troublesome and time-consuming to manufacture; in addition, both the moving groove and the sliding groove are open grooves, and metal shavings and dust from the cable processing site can easily fall into the moving groove or the sliding groove, potentially hindering the sliding of the slider or even scratching the mating surface between the slider and the sliding groove. To avoid this, workers need to frequently clean the metal shavings, dust, and other debris in the sliding groove, affecting production efficiency. Secondly, the sliding groove is located on the inner wall of the moving groove, resulting in a narrow maintenance space, making it difficult to replace worn sliders or repair the sliding groove.

[0004] A reciprocating lead screw is a type of three-dimensional cam pair. It consists of two threaded grooves with the same pitch but opposite directions, connected at both ends by a transition curve. By rotating the lead screw, the side of the helical groove pushes a slider placed in the threaded groove to perform axial reciprocating motion.

[0005] The information disclosed in this background section is intended only to enhance the understanding of the overall background of this utility model and should not be construed as an admission or in any way implying that the information constitutes prior art known to those skilled in the art. Utility Model Content

[0006] The purpose of this utility model is to provide a placement device for cable processing and production, so as to solve the problems existing in the prior art.

[0007] To achieve the above objectives, the present invention provides the following technical solution:

[0008] A placement device for cable processing and production, comprising:

[0009] A workbench, the top of which is fixed with a horizontal base plate;

[0010] A plurality of winding assemblies are spaced apart on the top of the substrate. Each winding assembly includes two support plates spaced apart and fixedly connected to the substrate at their bottom, a spool passing through the two support plates and rotatably connected at both ends to the support plates at corresponding positions, a winding reel sleeved in the middle of the spool, and limiting discs spaced apart on both sides of the winding reel on the spool. The spool includes a connecting shaft and a rotating shaft. The rotating shaft is detachably connected to the end of the connecting shaft and rotatably connected to the support plates. The winding reel is sleeved on the connecting shaft.

[0011] The winding power assembly is connected to the winding assembly via a transmission.

[0012] Furthermore, a connecting groove is formed at the middle of each end of the connecting shaft; a connecting block corresponding to the connecting groove is fixed at the middle of the inner end of the rotating shaft, and the connecting block is inserted into the connecting groove.

[0013] Furthermore, a connecting hole is respectively opened in the middle of the two side walls of the connecting groove, and a threaded groove corresponding to the connecting hole is opened on the connecting block; a connecting bolt is provided in one of the connecting holes, and the connecting bolt passes through the connecting hole and is threaded to the threaded groove, thereby connecting the rotating shaft to the end of the connecting shaft.

[0014] Furthermore, a fixing cylinder is integrally formed on the outer side of the limiting plate. The fixing cylinder is sleeved on the connecting shaft. A locking bolt is threaded onto the fixing cylinder. When the locking bolt is tightened, the locking bolt abuts against the connecting shaft, thereby fixing the fixing cylinder on the connecting shaft.

[0015] Furthermore, the winding disc includes a winding cylinder sleeved on the connecting shaft and a disc fixed at both ends of the winding cylinder, the disc having through holes; a plurality of limiting posts corresponding to the through holes on the disc are fixed on the inner wall of the limiting disc, the limiting posts being inserted into the through holes.

[0016] Furthermore, the winding power assembly includes a first synchronous pulley fixed to the outer end of one of the rotating shafts, a winding drive motor fixed to the base plate, a second synchronous pulley fixed to the output shaft of the winding drive motor, and a first synchronous belt that drives and connects the first synchronous pulley and the second synchronous pulley.

[0017] Furthermore, the cable processing and production placement device also includes guide components spaced apart on the top of the substrate and located in front of the plurality of winding assemblies. The guide components include two fixed plates spaced apart and fixedly connected to the substrate at their bottoms, a reciprocating screw with its two ends passing through the fixed plates at corresponding positions and rotatably connected to the fixed plates, guide rods symmetrically arranged on both sides of the reciprocating screw and fixed at both ends to the fixed plates at corresponding positions, and a slide block arranged on the reciprocating screw and penetrated by the guide rods and slidably guided by the guide rods; wherein, a mounting groove is recessed at the top of the slide block, and two guide wheels are spaced apart in the mounting groove.

[0018] Furthermore, the cable processing and production placement device also includes a guide power component that is connected to the guide assembly. The guide power component includes a third synchronous pulley fixed to one end of the reciprocating screw, a guide drive motor fixed to the base plate, a fourth synchronous pulley fixed to the output shaft of the guide drive motor, and a second synchronous belt that connects the third synchronous pulley and the fourth synchronous pulley.

[0019] Furthermore, the height of the guide wheel is less than the height of the connecting shaft.

[0020] Compared with the prior art, the present invention has the following beneficial effects:

[0021] (1) The scroll of this utility model adopts a split design. The scroll consists of a connecting shaft and a detachable rotating shaft. It is connected to the connecting groove by a connecting block and then fixed with connecting bolts. It is easy to assemble, easy to disassemble and replace the winding reel, and easy to maintain.

[0022] (2) The limiting plate of this utility model is connected to the connecting shaft by a fixed sleeve and is tightened and fixed by a locking bolt. In addition, the limiting post on the limiting plate is inserted into the through hole of the winding disc to form a limiting effect, ensuring that the winding disc and the reel rotate synchronously and preventing the cable from being loosely wound.

[0023] (3) The mounting groove of the slide of this utility model is equipped with double guide wheels. The cable passes through the two guide wheels to form tension control. The guide wheels move back and forth with the slide to make the cable evenly layered and avoid local stacking. In addition, the cable naturally fits the bottom of the guide wheel at the end of the mounting groove, which can reduce friction damage and help ensure the quality of the cable.

[0024] (4) The winding assembly of this utility model is driven by the winding power assembly and the guiding assembly is driven by the guiding power assembly. They are independent of each other, so the winding speed and the cable laying speed can be adjusted and controlled separately, which is convenient to adapt to different cable diameters and tension requirements.

[0025] In summary, the cable processing and production placement device of this utility model features a split-type reel design that facilitates easy assembly, disassembly and replacement of the winding reel, and convenient maintenance. The design of the limiting plate ensures that the winding reel and the reel rotate synchronously, preventing the cable from becoming loose during winding. In addition, the guide component, in conjunction with the guide wheel, allows the cable to be wound evenly in layers, avoiding local stacking and reducing cable friction damage, which helps to ensure cable quality and thus improves the convenience and practicality of cable storage and placement. Attached Figure Description

[0026] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0027] Figure 2 for Figure 1 Enlarged view of point A in the middle;

[0028] Figure 3 for Figure 1 Main view;

[0029] Figure 4 for Figure 3 Enlarged view at point B in the middle;

[0030] Figure 5 for Figure 1 Top view;

[0031] Figure 6 This is a schematic diagram of the structure of the winding assembly and the guiding assembly of this utility model;

[0032] Figure 7 for Figure 6 Main view;

[0033] Figure 8 This is a schematic diagram of the connecting shaft and winding reel of this utility model;

[0034] Figure 9 This is a schematic diagram of the winding reel of this utility model.

[0035] Explanation of key figure labels:

[0036] 1. Worktable; 11. Substrate;

[0037] 2. Rewinding assembly; 21. Support plate; 22. Reel; 221. Connecting shaft; 2211. Connecting groove; 2212. Connecting hole; 2213. Connecting bolt; 222. Rotating shaft; 2221. Connecting block; 2222. Threaded groove; 23. Winding reel; 231. Winding cylinder; 232. Disc; 233. Through hole; 24. Limiting disc; 241. Fixing cylinder; 242. Limiting post; 243. Locking bolt;

[0038] 3. Guide assembly; 31. Fixing plate; 32. Reciprocating lead screw; 33. Guide rod; 34. Slide; 341. Mounting slot; 342. Guide wheel;

[0039] 4. Winding power assembly; 41. First synchronous pulley; 42. Winding drive motor; 43. Second synchronous pulley; 44. First synchronous belt;

[0040] 5. Guide power assembly; 51. Third synchronous pulley; 52. Guide drive motor; 53. Fourth synchronous pulley; 54. Second synchronous belt. Detailed Implementation

[0041] The technical solution of this utility model patent will be clearly and completely described below. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.

[0042] Example

[0043] See Figure 1-9 A placement device for cable processing and production, comprising:

[0044] Workbench 1, with a horizontal base plate 11 fixed on top;

[0045] Multiple winding assemblies 2 are spaced apart on the top of the substrate 11, including two support plates 21 spaced apart and fixedly connected to the bottom of the substrate 11, a spool 22 passing through the two support plates 21 and rotatably connected to the support plates 21 at corresponding positions at both ends, a winding reel 23 sleeved in the middle of the spool 22, and limiting discs 24 spaced apart on both sides of the winding reel 23 on the spool 22; wherein, the spool 22 includes a connecting shaft 221 and a rotating shaft 222, the rotating shaft 222 is detachably connected to the end of the connecting shaft 221 and rotatably connected to the support plates 21 (in this embodiment, a seated bearing is installed on the rotating shaft 222, and the seated bearing is fixed to the outer wall of the support plate 21), wherein a connecting groove 2 is respectively opened in the middle of both ends of the connecting shaft 221. 211, the connecting groove 2211 penetrates the side wall of the connecting shaft 221, and a connecting hole 2212 is respectively opened in the middle of the two side walls of the connecting groove 2211; a connecting block 2221 corresponding to the connecting groove 2211 is fixed in the middle of the inner end of the rotating shaft 222, the connecting block 2221 is inserted into the connecting groove 2211, and a threaded groove 2222 corresponding to the connecting hole 2212 is opened on the connecting block 2221. A connecting bolt 2213 is provided in one of the connecting holes 2212. The connecting bolt 2213 passes through the connecting hole 2212 and extends into the threaded groove 2222 that is threaded with it, thereby connecting the inner end of the rotating shaft 222 to the end of the connecting shaft 221; in this embodiment, the winding reel 23 is sleeved on the connecting shaft 221;

[0046] A guide assembly 3 is spaced apart on the top of the substrate 11 and located in front of multiple winding assemblies 2. The guide assembly 3 includes two fixed plates 31 spaced apart and fixedly connected to the substrate 11 at the bottom; a reciprocating screw 32 with its two ends passing through the fixed plates 31 at corresponding positions and rotatably connected to the fixed plates 31 (both ends of the reciprocating screw 32 are respectively equipped with seated bearings, which are fixed to the outer wall of the fixed plates 31); and guide rods 33 symmetrically arranged on both sides of the reciprocating screw 32 and fixed at both ends to the fixed plates 31 at corresponding positions. The slide block 34 is mounted on the reciprocating lead screw 32 and is slidably guided by the guide rod 33. It should be noted that when the reciprocating lead screw 32 rotates, it drives the slide block 34 to reciprocate along its axial direction. This part is prior art. The top of the slide block 34 is recessed with a mounting groove 341. Two guide wheels 342 are installed at intervals in the mounting groove 341 and are located at both ends of the mounting groove 341. The height of the guide wheels 342 is less than the height of the connecting shaft 221.

[0047] The winding power assembly 4, which is connected to the winding assembly 2, includes a first synchronous pulley 41 fixed on the outer end of one of the rotating shafts 222, a winding drive motor 42 fixed on the base plate 11, a second synchronous pulley 43 fixed on the output shaft of the winding drive motor 42, and a first synchronous belt 44 that drives the first synchronous pulley 41 and the second synchronous pulley 43.

[0048] The guide power assembly 5 of the transmission connection guide assembly 3 includes a third synchronous pulley 51 fixed to one end of the reciprocating lead screw 32, a guide drive motor 52 fixed to the base plate 11, a fourth synchronous pulley 53 fixed to the output shaft of the guide drive motor 52, and a second synchronous belt 54 that transmits and connects the third synchronous pulley 51 and the fourth synchronous pulley 53.

[0049] In this embodiment, a fixing cylinder 241 is integrally formed on the outer side of the limiting disc 24. The fixing cylinder 241 is sleeved on the connecting shaft 221. A locking bolt 243 is threadedly connected to the fixing cylinder 241. When the locking bolt 243 is tightened, the inner end of the locking bolt 243 abuts against the connecting shaft 221, thereby fixing the fixing cylinder 241 on the connecting shaft 221.

[0050] In this embodiment, the winding disc 23 includes a winding cylinder 231 sleeved on the connecting shaft 221 and a disc 232 fixed at both ends of the winding cylinder 231. The disc 232 has through holes 233. The inner wall of the limiting disc 24 is fixed with a plurality of limiting posts 242 corresponding to the through holes 233 on the disc 232. The limiting posts 242 are inserted into the through holes 233.

[0051] In use, first fix the winding reel 23 onto the connecting shaft 221, and then connect the connecting shaft 221 to the inner end of the rotating shaft 222 at the corresponding position. Specifically, the winding reel 23 is sleeved on the middle of the connecting shaft 221, and a limiting disc 24 is sleeved on the connecting shaft 221 on both sides of the winding reel 23. The limiting disc 24 fits against the disc 232 of the winding reel 23, and the limiting post 242 of the limiting disc 24 is inserted into the through hole 233 on the disc 232. Then, tighten the locking bolt 243 with an external tool. The inner end of the locking bolt 243 tightly abuts against the outer wall of the connecting shaft 221, thereby fixing the fixing cylinder 241, the limiting disc 24, and the winding reel 23 onto the connecting shaft 221. Next, insert the connecting block 2221 into the connecting groove 2211. After adjusting the positions of the connecting hole 2212 and the threaded groove 2222 to correspond, pass the connecting bolt 2213 through the connecting hole 2212 and insert it into the threaded groove 2222 that is threaded with it. Tighten the connecting bolt 2213 to connect the inner end of the rotating shaft 222 to the end of the connecting shaft 221, thereby fixing the connecting shaft 221 and the rotating shaft 222.

[0052] When winding the cable, the end of the cable to be wound passes through the top of the guide wheel 342 located on the outer side of the mounting groove 341, and then through the bottom of the guide wheel 342 on the inner side, and is fixed to the winding drum 231 of the winding reel 23. Since the height of the guide wheel 342 is less than the height of the connecting shaft 221, this ensures that the cable to be wound is always in contact with the bottom of the inner guide wheel 342, avoiding wear on the cable to be wound. When winding the cable, the winding drive motor 42 drives the second synchronous pulley 43 to rotate counterclockwise. The second synchronous pulley 43 drives the first synchronous pulley 41 to rotate counterclockwise through the first synchronous belt 44. The first synchronous pulley 41 drives the rotating shaft 222 to rotate. The rotating shaft 222 drives the connecting shaft 221 to rotate. The connecting shaft 221 drives the limiting plate 24 and the winding reel 23 to rotate, thereby winding the cable to be wound onto the winding reel 23. While the cable is being wound up, the guide drive motor 52 is started. The guide drive motor 52 drives the third synchronous pulley 51 to rotate. The third synchronous pulley 51 drives the fourth synchronous pulley 53 to rotate through the second synchronous belt 54. The fourth synchronous pulley 53 drives the reciprocating screw 32 to rotate. When the reciprocating screw 32 rotates, it drives the slide block 34 to move back and forth along its axis. This makes it easier to evenly wind the cable to be wound onto the winding reel 23, thus completing the winding and placement of the cable.

[0053] The foregoing description of specific exemplary embodiments of the present invention is for illustrative and explanatory purposes. These descriptions are not intended to limit the present invention to the precise forms disclosed, and it will be apparent that many changes and variations can be made in accordance with the foregoing teachings. The exemplary embodiments were chosen and described in order to explain the specific principles of the present invention and its practical application, thereby enabling those skilled in the art to implement and utilize various different exemplary embodiments of the present invention, as well as various different choices and variations. The scope of the present invention is intended to be defined by the claims and their equivalents.

Claims

1. A cable processing production placement device, characterized by, include: A workbench, the top of which is fixed with a horizontal base plate; A plurality of winding assemblies are spaced apart on the top of the substrate. Each winding assembly includes two support plates spaced apart and fixedly connected to the substrate at their bottom, a spool passing through the two support plates and rotatably connected at both ends to the support plates at corresponding positions, a winding reel sleeved in the middle of the spool, and limiting discs spaced apart on both sides of the winding reel on the spool. The spool includes a connecting shaft and a rotating shaft. The rotating shaft is detachably connected to the end of the connecting shaft and rotatably connected to the support plates. The winding reel is sleeved on the connecting shaft. The winding power assembly is connected to the winding assembly via a transmission.

2. The cable processing and production placement device of claim 1, wherein, A connecting groove is formed at the middle of each end of the connecting shaft; a connecting block corresponding to the connecting groove is fixed at the middle of the inner end of the rotating shaft, and the connecting block is inserted into the connecting groove.

3. The cable processing and production placement device of claim 2, wherein, A connecting hole is provided in the middle of each side wall of the connecting groove, and a threaded groove corresponding to the connecting hole is provided on the connecting block; a connecting bolt is provided in one of the connecting holes, and the connecting bolt passes through the connecting hole and is threaded to the threaded groove, thereby connecting the rotating shaft to the end of the connecting shaft.

4. The cable processing and production placement device of claim 1, wherein, The outer side of the limiting plate is integrally formed with a fixing cylinder, which is sleeved on the connecting shaft. A locking bolt is threaded onto the fixing cylinder. When the locking bolt is tightened, the locking bolt abuts against the connecting shaft, thereby fixing the fixing cylinder to the connecting shaft.

5. The cable processing and production placement device of claim 4, wherein, The winding disc includes a winding cylinder sleeved on a connecting shaft and a disc fixed at both ends of the winding cylinder. The disc has through holes. The inner wall of the limiting disc has a plurality of limiting posts corresponding to the through holes on the disc, and the limiting posts are inserted into the through holes.

6. The cable processing and production placement device of claim 1, wherein, The winding power assembly includes a first synchronous pulley fixed to the outer end of one of the rotating shafts, a winding drive motor fixed to the base plate, a second synchronous pulley fixed to the output shaft of the winding drive motor, and a first synchronous belt that drives and connects the first synchronous pulley and the second synchronous pulley.

7. The cable processing and manufacturing placement device of claim 1, wherein, The cable processing and production placement device further includes guide components spaced apart on the top of the substrate and located in front of the plurality of winding assemblies. The guide components include two fixed plates spaced apart and fixedly connected to the substrate at their bottoms, a reciprocating screw with its two ends passing through the fixed plates at corresponding positions and rotatably connected to the fixed plates, guide rods symmetrically arranged on both sides of the reciprocating screw and fixed at both ends to the fixed plates at corresponding positions, and a slide block arranged on the reciprocating screw and passed through by the guide rods and slidably guided by the guide rods; wherein, the top of the slide block is recessed with a mounting groove, and two guide wheels are spaced apart in the mounting groove.

8. The cable processing and production placement device of claim 7, wherein, The cable processing and production placement device further includes a guide power component that is connected to the guide assembly. The guide power component includes a third synchronous pulley fixed to one end of the reciprocating screw, a guide drive motor fixed to the base plate, a fourth synchronous pulley fixed to the output shaft of the guide drive motor, and a second synchronous belt that connects the third synchronous pulley and the fourth synchronous pulley.

9. The cable processing and production placement device of claim 7, wherein, The height of the guide wheel is less than the height of the connecting shaft.