A wire winding device with wire cutting function
By designing a cable winding device with a wire-cutting function, the problem of cumbersome and inefficient manual handling of cables of various diameters was solved, enabling rapid cable handling and automatic cutting, thereby improving work efficiency and reducing labor intensity.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SOOS (GUANGDONG) GLASS TECH CO LTD
- Filing Date
- 2025-06-23
- Publication Date
- 2026-06-30
AI Technical Summary
In the existing technology, manually sorting cables of various diameters is cumbersome, inefficient, and labor-intensive, especially when connecting the cables to the glass tempering furnace device, where each cable needs to be cut one by one.
Design a cable winding device with a cable cutting function, including a frame, a cable splitter assembly, a cable winding assembly, and a cable cutter. Multiple cables are bundled together by a splitter plate, a cable collector plate, and a winding turntable, and the cable cutter automatically cuts the cables. The device is automated by combining a length measuring device and a controller.
It enables rapid organization and automatic cutting of multiple cables, improving operational convenience and work efficiency while reducing labor intensity.
Smart Images

Figure CN224429773U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cable production equipment technology, and in particular to a wire winding device with wire cutting function. Background Technology
[0002] In the existing technology, glass tempering furnaces are equipped with multiple air supply devices, multiple heating devices, and multiple detection devices. These devices all need to be connected to external power sources, control systems, or detection systems via cables. Therefore, cables of various diameters are required during the cable connection process.
[0003] Manually organizing cables of various diameters into a single cable bundle can improve the ease of operation and work efficiency in cable connection.
[0004] When manually organizing multiple cables into a cable bundle, each cable must be cut individually, which is tedious, inefficient, and labor-intensive. Utility Model Content
[0005] To address the aforementioned shortcomings, the primary objective of this utility model is to propose a cable winding device with a wire-cutting function, thereby solving the problems of cumbersome operation, low work efficiency, and high labor intensity in manually organizing multiple cables into a cable bundle.
[0006] To achieve this objective, the present invention adopts the following technical solution:
[0007] A cable winding device with a wire cutting function includes a frame, a wire separating assembly, a wire winding assembly, and multiple cable cutters;
[0008] The wire splitting assembly includes at least two wire splitting plates; the winding assembly includes a wire gathering plate and a take-up turntable.
[0009] Two of the aforementioned splitter board frames are mounted on top of the frame, and the splitter board has multiple through holes staggered in the left-right direction; the through holes pass through the splitter board in the front-back direction;
[0010] The take-up turntable is mounted in front of the cable splitter assembly, and the cable collector plate is installed between the take-up turntable and the cable splitter plate; the cable collector plate has a cable collection hole in the middle; the cable collection hole extends through the cable collector plate in the front-to-back direction; each cable threading hole is used to pass through one cable unwound from the cable reel, the cable collection hole is used to pass through multiple cables passing through all the cable threading holes, and the take-up turntable is used to take up the cable bundle composed of multiple cables passing through the cable collection hole;
[0011] Multiple cable cutters are installed between the two branch boards; the cable cutters are located near the front or rear wire-passing holes; the cable cutters are provided with cutting holes; the multiple cutting holes correspond one-to-one with the multiple wire-passing holes.
[0012] Furthermore, the branch line assembly also includes a length measuring device;
[0013] The length measuring device is installed between the two dividing boards.
[0014] Furthermore, the length measuring device includes an encoder pulley and multiple wire pulleys;
[0015] The multiple wire pulleys are divided into two groups, with multiple wire pulleys in the same group arranged at intervals. The two groups of wire pulleys are respectively located in front of and behind the encoder pulley.
[0016] Furthermore, the dividing plate is equipped with a plurality of rotatable first dividing posts;
[0017] The gap between two adjacent first branch posts forms the threading hole.
[0018] Furthermore, it also includes a controller, and the winding assembly further includes a drive motor;
[0019] The controller and the drive motor are respectively mounted on the frame, with the output end of the drive motor facing upwards. The middle part of the take-up turntable is connected to the output end of the drive motor, and the controller is connected to the drive motor via a signal.
[0020] Specifically, the cable cutter includes a cylinder, a blade, and a blade holder;
[0021] The cylinder holder is mounted above the tool holder, with the output end of the cylinder facing downwards. The tool is mounted on the output end of the cylinder, with the cutting edge of the tool facing downwards and toward the tool holder. The tangent hole is located between the cutting edge of the tool when it is not closed and the tool holder.
[0022] The length measuring device and the cable cutter are respectively connected to the controller via signal connection;
[0023] The controller is equipped with a display screen that shows the cable length measured by the length measuring device.
[0024] Furthermore, a foot pedal and a proximity switch are also installed at the bottom of the frame;
[0025] The front and rear ends of the foot pedal are rotatably mounted on the bottom of the frame, and the left side of the foot pedal is used for stepping.
[0026] The proximity switch is located near the right corner of the foot pedal, and the proximity switch is connected to the controller and the drive motor respectively.
[0027] The technical solution of the cable winding device with wire cutting function of this utility model has at least the following beneficial effects: it can pull multiple cables separately and organize them into a bundle at one time, and can also cut the cable by multiple cable cutters while the winding turntable is winding the cable bundle. It has the advantages of convenient operation, high efficiency and labor saving. Attached Figure Description
[0028] Figure 1 This is a schematic diagram of the structure of one embodiment of a wire winding device with wire cutting function according to the present invention;
[0029] Figure 2 This is a schematic diagram of the installation structure of one embodiment of the wire splitter assembly and cable cutter of this utility model;
[0030] Figure 3 for Figure 2 An enlarged view of part A;
[0031] The components include: frame 1; wire splitter assembly 2; cable cutter 4; controller 5; wire splitter board 21; length measuring device 22; foot pedal 24; proximity switch 25; wire collector board 31; winding turntable 32; drive motor 33; wire cutting hole 40; cylinder 41; cutter 42; cutter holder 43; wire threading hole 210; wire collecting hole 310; and winding post 321. Detailed Implementation
[0032] The following is in conjunction with the appendix Figure 1-3 The technical solution of this utility model will be further illustrated through specific implementation methods.
[0033] The accompanying drawings are for illustrative purposes only and should not be construed as limiting the scope of this patent. To better illustrate this embodiment, some components in the drawings may be omitted, enlarged, or reduced, and do not represent the actual dimensions of the product. It is understandable to those skilled in the art that some well-known structures and their descriptions may be omitted in the drawings.
[0034] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation" and "connection" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; 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 also refer to the internal communication between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.
[0035] A cable winding device with a wire cutting function includes a frame 1, a wire separating assembly 2, a wire winding assembly 3, and multiple cable cutters 4;
[0036] The wire splitting assembly 2 includes at least two wire splitting plates 21; the winding assembly 3 includes a wire gathering plate 31 and a take-up turntable 32.
[0037] Two of the aforementioned splitter plates 21 are mounted on top of the frame 1. The splitter plates 21 are staggered in the left-right direction and have multiple through holes 210. The through holes 210 penetrate the splitter plates 21 in the front-back direction.
[0038] The take-up turntable 32 is mounted in front of the cable distribution assembly 2, and the cable collector plate 31 is installed between the take-up turntable 32 and the cable distribution plate 21. The cable collector plate 31 has a cable collection hole 310 in the middle. The cable collection hole 310 passes through the cable collector plate 31 in the front-back direction. Each cable threading hole 210 is used to pass through one cable unwound from the cable reel. The cable collection hole 310 is used to pass through multiple cables passing through all the cable threading holes 210. The take-up turntable 32 is used to take up the cable bundle composed of multiple cables passing through the cable collection holes 310.
[0039] Multiple cable cutters 4 are installed between the two branch boards 21; the cable cutters 4 are located near the front or rear of the wire hole 210; the cable cutters 4 are provided with cutting holes 40; the multiple cutting holes 40 correspond one-to-one with the multiple wire holes 210.
[0040] Figure 1 The diagram shown is a structural schematic of one embodiment of a wire winding device with a wire-cutting function according to this utility model. Figure 2 This is a schematic diagram of the installation structure of one embodiment of the wire splitter assembly 2 and cable cutter 4 of this utility model; Figure 3 This is a schematic diagram of the installation structure of one embodiment of the winding assembly 3 of this utility model.
[0041] like Figure 1-3 As shown, when using the cable harness, select multiple cable reels according to the cable configuration requirements, divide the multiple cable reels, and then pull out one end of the cable from each cable reel. Pass one end of each cable through the corresponding wire hole 210, and then through the cable collection hole 310. Then fix one end of the multiple cables to the winding post 321 of the winding turntable 32 and bundle them together. Then rotate the winding turntable 32 to wind up the cable harness composed of multiple cables. When the length of the cable harness reaches the required length, bundle the multiple cables together behind the cable collection hole 310, and after tightening, cut each cable with multiple cable cutters 4 to obtain the required cable harness.
[0042] Furthermore, the branch line assembly 2 also includes a length measuring device 22;
[0043] The length measuring device 22 is installed between the two dividing plates 21.
[0044] like Figure 1-3 As shown, the length of any cable passing between the two splitter plates 21 can be measured by a length measuring device 22 installed between the two splitter plates 21.
[0045] Furthermore, the length measuring device 22 includes an encoder pulley 222 and a plurality of wire pulleys 221;
[0046] The multiple wire pulleys 221 are divided into two groups, with multiple wire pulleys 221 in the same group arranged at intervals. The two groups of wire pulleys 221 are respectively located in front of and behind the encoder pulley 222.
[0047] like Figure 3 The length measuring device 22 shown is used by passing the cable whose length needs to be measured through the wire hole 210 of the rear splitter plate 21, then around a set of wire pulleys 221 at the rear, then around the wheel surface of the encoder pulley 222, then around a set of wire pulleys 221 at the front, and finally through the wire hole 210 of the front splitter plate 21. When the cable is wound up by the winding turntable 32, it will drive the encoder pulley 222 to rotate, and the length of the cable passing through the wheel surface of the encoder pulley 222 can be detected and obtained.
[0048] Based on the cable lengths tested above and the wiring paths of other cables, the corresponding lengths of other cables can also be calculated.
[0049] Furthermore, the dividing plate 21 is equipped with a plurality of rotatable first dividing posts 211;
[0050] The gap between two adjacent first branch posts 211 forms the thread hole 210.
[0051] like Figure 3 The cable threading hole 210, formed by the gap between two adjacent first branch posts 211, can prevent the cable from being scratched and damaged on the branch plate during the pulling process.
[0052] Furthermore, it also includes a controller 5, and the winding assembly 3 also includes a drive motor 33;
[0053] The controller 5 and the drive motor 33 are respectively mounted on the frame 4. The output end of the drive motor 33 is set upward. The middle part of the take-up turntable 32 is connected to the output end of the drive motor 33. The controller 5 is connected to the drive motor 33 via signal.
[0054] like Figure 1 As shown, the start and stop of the drive motor 33 can be controlled by the controller 5, which in turn controls the rotation of the winding turntable 32, thereby controlling the length of the wound wire harness.
[0055] Furthermore, the cable cutter 4 includes a cylinder 41, a cutter 42, and a cutter holder 43;
[0056] The cylinder 41 is mounted above the tool holder 43, with the output end of the cylinder 41 facing downwards. The tool 42 is mounted on the output end of the cylinder 41, with the cutting edge of the tool 42 facing downwards and toward the tool holder 43. The tangent hole 40 is located between the cutting edge of the unclosed tool 42 and the tool holder 43.
[0057] The length measuring device 22 and the cable cutter 4 are respectively connected to the controller 5 via signal.
[0058] The controller 5 is equipped with a display screen, which displays the cable length measured by the length measuring device 22.
[0059] Figure 3 In the embodiment shown, the cable cutter 4 is a pneumatic guillotine. When the cable cutter 4 is not activated, the cutting edge of the cutter 42 and the cutter holder 43 are not closed, and the tangent hole 40 located between the cutting edge and the cutter holder 43 is in the open state.
[0060] When the cable length measured by the length measuring device 22 reaches the set process value, pressing the corresponding button switch on the controller 5 will start the cable cutter 4 and cut the cable in the corresponding cutting hole 40.
[0061] Furthermore, a foot pedal 24 and a proximity switch 25 are also installed at the bottom of the frame 1;
[0062] The front and rear ends of the foot pedal 24 are rotatably mounted on the bottom of the frame 1, and the left side of the foot pedal 24 is used for stepping.
[0063] The proximity switch 25 is located near the right corner of the foot pedal 24, and the proximity switch 25 is connected to the controller 5 and the drive motor 33 respectively.
[0064] Figure 1-2 In the embodiment shown, when the left side of the foot pedal 24 is stepped down, the right side of the foot pedal 24 tilts up and triggers the proximity switch 25. The proximity switch 25 sends a feedback signal to the controller 5. After receiving the feedback signal, the controller 5 starts or stops the drive motor 33.
[0065] In practical applications, operators can control the start and stop of the drive motor 33 by stepping on the foot pedal 24 according to the actual situation, which provides more flexible operation and convenience.
[0066] In summary, such as Figure 1-3 The embodiment of the present invention shown herein describes a cable winding device with a wire cutting function, which can pull multiple cables into a bundle at once. It can also cut the cable while the winding turntable 32 is winding the cable bundle, using multiple cable cutters 4. It has the advantages of convenient operation, high efficiency and labor saving.
[0067] The technical principles of this utility model have been described above with reference to specific embodiments. These descriptions are merely for explaining the principles of this utility model and should not be construed as limiting the scope of protection of this utility model in any way. Based on this explanation, those skilled in the art can readily conceive of other specific embodiments of this utility model without any inventive effort, and these embodiments will all fall within the scope of protection of this utility model.
Claims
1. A line winding device having a line cutting function, characterized by comprising: Includes a rack, branching assembly, winding assembly, and multiple cable cutters; The wire splitting assembly includes at least two wire splitting plates; the winding assembly includes a wire gathering plate and a take-up turntable. Two of the aforementioned splitter board frames are mounted on top of the frame, and the splitter board has multiple through holes staggered in the left-right direction; the through holes pass through the splitter board in the front-back direction; The take-up turntable is mounted in front of the cable splitter assembly, and the cable collector plate is installed between the take-up turntable and the cable splitter plate; the cable collector plate has a cable collection hole in the middle; the cable collection hole extends through the cable collector plate in the front-to-back direction; each cable threading hole is used to pass through one cable unwound from the cable reel, the cable collection hole is used to pass through multiple cables passing through all the cable threading holes, and the take-up turntable is used to take up the cable bundle composed of multiple cables passing through the cable collection hole; A plurality of cable cutters are installed between the two splitter boards; The cable cutter is positioned near the wire-passing hole at the front or rear; the cable cutter has cutting holes; and the plurality of cutting holes correspond one-to-one with the plurality of wire-passing holes.
2. The cord winding device having a cord cutting function according to claim 1, wherein The branch line assembly also includes a length measuring device; The length measuring device is installed between the two dividing boards.
3. The cord winding device having a cord cutting function according to claim 2, wherein The length measuring device includes an encoder pulley and multiple wire pulleys; The multiple wire pulleys are divided into two groups, with multiple wire pulleys in the same group arranged at intervals. The two groups of wire pulleys are respectively located in front of and behind the encoder pulley.
4. The cord winding device having a cord cutting function according to claim 2, wherein The splitter plate is equipped with a plurality of rotatable first splitter posts; The gap between two adjacent first branch posts forms the threading hole.
5. The line winding device having a line cutting function according to claim 3, wherein It also includes a controller, and the winding assembly further includes a drive motor; The controller and the drive motor are respectively mounted on the frame, with the output end of the drive motor facing upwards. The middle part of the take-up turntable is connected to the output end of the drive motor, and the controller is connected to the drive motor via a signal.
6. The line winding device with a line cutting function according to claim 5, wherein The cable cutter includes a cylinder, a blade, and a blade holder; The cylinder holder is mounted above the tool holder, with the output end of the cylinder facing downwards. The tool is mounted on the output end of the cylinder, with the cutting edge of the tool facing downwards and toward the tool holder. The tangent hole is located between the cutting edge of the tool when it is not closed and the tool holder. The length measuring device and the cable cutter are respectively connected to the controller via signal connection; The controller is equipped with a display screen that shows the cable length measured by the length measuring device.
7. The line winding device having a line cutting function according to claim 5, wherein The bottom of the frame is also equipped with a foot pedal and a proximity switch; The front and rear ends of the foot pedal are rotatably mounted on the bottom of the frame, and the left side of the foot pedal is used for stepping. The proximity switch is located near the right corner of the foot pedal, and the proximity switch is connected to the controller and the drive motor respectively.