Square fishing line braiding machine and braiding method thereof
By using a square braiding machine and its braiding method, a square braided structure is formed by the sliding interlacing of spindles on the feeding turntable, which solves the problem of gaps in the middle of circular braided fishing lines and improves the abrasion resistance and tensile strength of the fishing lines.
Patent Information
- Authority / Receiving Office
- WO · WO
- Patent Type
- Applications
- Current Assignee / Owner
- ZHONGFU SHENLONG (SHANDONG) NEW MATERIAL MANUFACTURING CO LTD
- Filing Date
- 2025-12-23
- Publication Date
- 2026-07-02
Smart Images

Figure CN2025144746_02072026_PF_FP_ABST
Abstract
Description
A square fishing line braiding machine and its braiding method Technical Field
[0001] This invention relates to the field of braiding machine technology, and in particular to a square fishing line braiding machine and its braiding method. Background Technology
[0002] Fishing is increasingly becoming a popular outdoor activity, primarily involving using a fishing rod to catch fish from the water. The fishing line is the line attached to the fishing rod. There are many types of fishing lines, including nylon line, carbon fiber line, steel wire line, braided line, synthetic line, ceramic line, and so on.
[0003] Braided fishing line refers to a mesh-like line made of multiple strands of yarn, such as ultra-high molecular weight polyethylene (UHMWPE) fiber, which is produced by a braiding machine. UHMWPE fiber, also known as high-strength, high-modulus polyethylene fiber, is currently the fiber with the highest specific strength and specific modulus in the world. It is spun from polyethylene with a molecular weight of 1 million to 5 million, exhibiting good impact resistance and high specific energy absorption. Existing braided fishing lines, such as those using 12-strand circular braiding equipment, produce a circular structure with a hollow center, resulting in a less compact braided fishing line. Summary of the Invention
[0004] To address the problems of the prior art, this invention provides a square fishing line braiding machine and its braiding method. It creatively adopts a special square braiding method, and the braided structure formed after interlacing is square, breaking the inherent idea that the braided structure of fishing line is circular. This reduces the gaps in the middle of the braided fishing line, making the braided fishing line tighter and increasing the wear resistance and tensile strength of the fishing line.
[0005] Therefore, the technical solution of the present invention is a square fishing line braiding machine, which is provided with a feeding platform and a support frame. The support frame is equipped with a take-up mechanism, a tensioning mechanism, a line equalization mechanism and a recovery mechanism. The feeding platform is provided with four feeding turntables. The outer ring side of the feeding turntable is evenly provided with multiple slide slots. Spindles are installed on the slide slots. A multi-ring braiding track groove is provided below the feeding turntable. The multi-ring braiding track groove includes four circular ring grooves. The four circular ring grooves of the multi-ring braiding track groove are connected tangentially in sequence. Two adjacent circular ring grooves are connected at the tangent point. The spindles installed on the feeding turntable slide sequentially along the multi-ring braiding track groove.
[0006] Furthermore, the feeding platform includes a feeding upper plate, a feeding lower plate, and a feeding side plate. Multiple drive gears are mounted on the feeding lower plate via a drive shaft, and a feeding turntable is fixed above the drive gears.
[0007] Furthermore, multiple drive gears are sequentially meshed and connected, with one of the drive gears being connected to the feeding motor via a transition gear.
[0008] Furthermore, the support frame includes a first support plate and a second support plate, which are fixedly connected by a spacer bearing sleeve, and spacer bearings are provided inside both ends of the spacer bearing sleeve.
[0009] Furthermore, the take-up mechanism includes a first take-up mechanism and a second take-up mechanism, both of which include a take-up frame, a take-up plate, and a take-up reel.
[0010] Furthermore, the tensioning mechanism is provided with a tensioning shaft, the middle of which is rotatably connected to the support frame. The rear end of the tensioning shaft is provided with a tensioning drive wheel, and the front end of the tensioning shaft is provided with a multi-groove tensioning wheel with multiple annular grooves.
[0011] Furthermore, the moving average mechanism includes a moving average shaft and a moving average guide rod. The middle part of the moving average shaft is rotatably connected to the support frame. The rear end of the moving average shaft is provided with a moving average drive wheel. The front end of the moving average shaft is provided with a reciprocating threaded groove. The moving average guide rod is fixedly connected to the second support plate of the support frame. A moving average guide block is installed at the front end of the moving average shaft and the moving average guide rod. A moving average adjustment plate is provided on the moving average guide block. One end of the moving average adjustment plate is provided with an adjustment plate groove, and the other end of the moving average adjustment plate is provided with a moving average guide eye.
[0012] Furthermore, the recycling mechanism includes a recycling shaft, the middle of which is rotatably connected to the support frame, a recycling drive wheel at the rear end of the recycling shaft, and a recycling wheel at the front end of the recycling shaft.
[0013] Furthermore, the feeding platform or support frame is equipped with a take-up motor, which is connected to the tension drive wheel, the line equalization drive wheel, and the recovery drive wheel through a drive tower wheel.
[0014] A method for weaving a square fishing line involves using a square fishing line weaving machine as described above. Multiple spindles mounted on four feeding turntables on the feeding platform are divided into two groups. The first group consists of multiple spindles mounted on two feeding turntables located on one diagonal, and the second group consists of multiple spindles mounted on two feeding turntables located on the other diagonal. If the first group of spindles slides clockwise along the multi-ring weaving track groove, the second group of spindles slides counterclockwise along the multi-ring weaving track groove; conversely, if the first group of spindles slides counterclockwise along the multi-ring weaving track groove, the second group of spindles slides clockwise along the multi-ring weaving track groove.
[0015] The beneficial effects of this invention are as follows: a feeding turntable is provided on the feeding platform, and multiple spindles are installed on the feeding turntable. The lower end of the spindle is provided with a spindle slide, which is installed in the multi-ring braided track groove of the feeding upper plate. When the feeding motor drives the feeding turntable to rotate through the drive gear, the feeding turntable drives the spindle to slide along the multi-ring braided track groove through the spindle slide. When the spindle slide slides to the point where the two circular grooves of the multi-ring braided track groove are tangential, since the spindle slide preferably slides along the tangential direction, the spindle will rotate from one circular groove into the other circular groove. This drives one set of spindles to move clockwise on the multi-ring braided track groove, and drives another set of spindles to move counterclockwise on the multi-ring braided track groove. After the fishing line raw material is interwoven and woven, a square braided fishing line is formed, which reduces the gap in the middle of the braided fishing line, makes the braided fishing line tighter, and increases the wear resistance and tensile strength of the fishing line. Attached Figure Description
[0016] Figure 1 is a schematic diagram of the overall structure of the present invention;
[0017] Figure 2 is a schematic diagram of the overall structure of the present invention from another angle;
[0018] Figure 3 is a left view of Figure 1;
[0019] Figure 4 is a rear view of Figure 1;
[0020] Figure 5 is a schematic diagram of the material feeding platform;
[0021] Figure 6 is a schematic diagram of the structure of the feeding platform after the drive gear assembly;
[0022] Figure 7 is a schematic diagram of the combined structure of the drive gear and the feeding turntable;
[0023] Figure 8 is a schematic diagram of the material feeding plate;
[0024] Figure 9 is a structural schematic diagram of the first take-up mechanism;
[0025] Figure 10 is a schematic diagram of the second take-up mechanism;
[0026] Figure 11 is a schematic diagram of the spacer bearing sleeve;
[0027] Figure 12 is a schematic diagram of the moving average-guided structure;
[0028] Figure 13 is a schematic diagram of the spindle structure;
[0029] Figure 14 is a cross-sectional view of the spindle;
[0030] Figure 15 is a schematic diagram of the braided circuit.
[0031] Explanation of symbols in the diagram:
[0032] 1. Feeding platform; 11. Feeding upper plate; 111. Multi-ring woven track groove; 1101 First circular ring groove; 1102 Second circular ring groove; 1103 Third circular ring groove; 1104 Fourth circular ring groove; 112. Turntable through hole; 12. Feeding lower plate; 13. Feeding side plate; 14. Drive gear; 15. Drive shaft; 16. Feeding turntable; 161. Slide slot; 17. Transition gear; 18. Feeding motor; 19. Spindle; 191. Spindle 1911. Slide; 1912. Upper circular plate; 1913. Lower circular plate; 1914. Shaft retainer; 192. Spindle fixing seat; 193. Spindle slide plate; 194. Spindle turntable; 195. Spindle mandrel; 196. Spindle connecting rod; 1961. Upper guide eye; 1962. Middle guide eye; 1963. Tie rod groove; 1964. Limiting rod; 197. Spindle top cover; 198. Plumb bob; 199. Plumb bob tie rod; 2. Support frame; 21. First support plate; 22. Second support plate; 23. 1. Spacer bearing sleeve; 231. Spacer bearing; 24. Transmission tower wheel; 3. Take-up mechanism; 31. First take-up mechanism; 311. Transverse connecting rod; 312. Longitudinal connecting rod; 313. Connecting block; 314. First take-up plate; 3141. Take-up plate groove; 315. Take-up guide plate; 3151. Guide plate groove; 3152. Take-up guide; 316. First take-up wheel; 317. Take-up wheel frame; 32. Second take-up mechanism; 321. Second take-up frame; 3 22. Second take-up plate; 323. Second take-up reel; 4. Tensioning mechanism; 41. Tensioning shaft; 42. Tensioning drive wheel; 43. Multi-groove tensioning wheel; 5. Moving average mechanism; 51. Moving average shaft; 52. Moving average drive wheel; 53. Moving average guide rod; 54. Moving average guide block; 55. Moving average adjusting plate; 551. Adjusting plate groove; 552. Moving average guide eye; 6. Retrieval mechanism; 61. Retrieval shaft; 62. Retrieval drive wheel; 63. Retrieval wheel; 7. Take-up motor. Detailed Implementation
[0033] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0034] As is well known, the cross-sectional structure of a rope is circular, and the cross-sectional structure of braided fishing line used for fishing is also circular. Traditional braided fishing line is woven using a 12-strand circular braiding machine. However, using existing braiding equipment and methods results in a hollow structure in the center of the woven circular fishing line. This hollow structure leads to insufficient tightness in the braid, affecting the abrasion resistance and tensile strength of the fishing line. Furthermore, when a circular braided fishing line is under stress, the hollow structure causes the line to flatten, altering its shape and usability. This application aims to solve the technical problem of insufficient tightness in braided fishing line due to its hollow structure, and to improve the abrasion resistance and tensile strength of the braided fishing line. It creatively invents a square fishing line braiding machine and its braiding method, breaking away from the inherent concept of a circular braided fishing line structure. Using the braiding equipment and method of this invention, a square braided fishing line is formed after weaving, reducing the gaps in the center of the braid, making the braided fishing line tighter, and increasing its abrasion resistance and tensile strength.
[0035] As shown in Figures 1-14, the present invention provides a square fishing line braiding machine, which is provided with a feeding platform 1 and a support frame 2. The support frame 2 is equipped with a take-up mechanism 3, a tensioning mechanism 4, a line equalization mechanism 5, and a recovery mechanism 6. The feeding platform 1 is provided with a feeding turntable 16, and multiple spindles 19 are installed on the feeding turntable 16. The multiple spindles 19 move sequentially along the multi-ring braiding track groove 111. The ultra-high molecular weight polyethylene fiber lines on the spindles 19 are braided to form a square braided fishing line.
[0036] Specifically, the feeding platform 1 includes a feeding upper plate 11, a feeding lower plate 12, and a feeding side plate 13. The feeding upper plate 11, the feeding lower plate 12, and the feeding side plate 13 form a closed gearbox. The gearbox is equipped with multiple drive gears 14. A drive shaft 15 is located in the middle of the drive gear 14. The drive shaft 15 is fixedly connected to the feeding lower plate 12. The drive gear 14 and the drive shaft 15 are rotatably connected through bearings. The multiple drive gears 14 are sequentially meshed and connected for transmission. One of the drive gears 14 is connected to the feeding motor 18 through a transition gear 17. That is, after the feeding motor 18 adjusts the gear ratio through the transition gear 17, it drives the multiple drive gears 14 to rotate together.
[0037] A feeding turntable 16 is fixedly provided above the drive gear 14. When the drive gear 14 rotates, it drives the feeding turntable 16 to rotate synchronously. The outer ring side of the feeding turntable 16 is evenly provided with a plurality of slide slots 161. Preferably, there are 4 drive gears 14, 4 feeding turntables 16, and 6 slide slots 161. Each feeding turntable 16 holds 3 spindles 19 at intervals. The weaving machine of the present invention is preferably a 12-knit weaving machine.
[0038] The upper surface of the feeding plate 11 is provided with a multi-ring braided track groove 111, which includes four circular ring grooves of equal size, namely the first circular ring groove 1101, the second circular ring groove 1102, the third circular ring groove 1103 and the fourth circular ring groove 1104. Each circular ring groove is provided with a turntable through hole 112 in the middle, which is used to install the feeding turntable 16.
[0039] The four circular grooves of the multi-ring woven track groove 111 are connected tangentially in sequence. Two adjacent circular grooves are connected at the point of tangency. That is, the first circular groove 1101 is tangential and connected to the second circular groove 1102 and the fourth circular groove 1104 respectively. The second circular groove 1102 is tangential and connected to the first circular groove 1101 and the third circular groove 1103 respectively. The third circular groove 1103 is tangential and connected to the second circular groove 1102 and the fourth circular groove 1104 respectively. The fourth circular groove 1104 is tangential and connected to the first circular groove 1101 and the third circular groove 1103 respectively. The line connecting the centers of the four circular grooves forms a square, and the side length of the square is equal to the diameter of the circular groove.
[0040] A spindle 19 is installed on the slide groove 161 of the feeding turntable 16. The spindle 19 includes a spindle slide 191 and a spindle fixing seat 192. The spindle slide 191 includes an upper circular plate 1911 and a lower circular plate 1912. The upper circular plate 1911 and the lower circular plate 1912 are fixedly connected by a retaining shaft 1913. When the spindle 19 is installed on the feeding turntable 16, the retaining shaft 1913 is engaged with the slide groove 161. The upper circular plate 1911 is located above the feeding turntable 16, and the lower circular plate 1912 is located below the feeding turntable 16, both of which serve to limit and fix the spindle.
[0041] Two spindle slides 193 are symmetrically arranged below the spindle slide block 191. When the spindle 19 is installed on the feeding turntable 16, the two spindle slides 193 are located in the multi-ring braided track groove 111 of the feeding upper plate 11. When the feeding turntable 16 rotates, the spindle slides 193 that drive the spindle 19 slide along the multi-ring braided track groove 111. When the spindle slides 193 slides to the point where the two circular grooves are tangent, since the spindle slides 193 preferably slides along the tangential direction, the spindle 19 will rotate from one circular groove into the other circular groove.
[0042] A spindle turntable 194 and a spindle mandrel 195 are provided above the spindle fixing seat 192. The spindle turntable 194 is rotatably connected to the spindle fixing seat 192 through bearings. The spindle mandrel 195 is fixedly connected to the spindle fixing seat 192. A spindle connecting rod 196 is provided on one side of the spindle mandrel 195. The upper end of the spindle connecting rod 196 is connected to the spindle top cover 197, and the lower end of the spindle connecting rod 196 is fixedly connected to the spindle fixing seat 192.
[0043] The spindle connecting rod 196 has an upper guide eye 1961 at its upper end, a middle guide eye 1962 in its middle section, and a pull rod groove 1963 at its lower end. A limiting rod 1964 is located at the bottom of the pull rod groove 1963. A plumb line pull rod 199 is located between the pull rod groove 1963 and the limiting rod 1964. A guide eye is located at the upper end of the plumb line pull rod 199, and a plumb bob 198 is connected to the lower end of the plumb line pull rod 199. The plumb line pull rod 199 and the plumb bob 198 are rotatably connected, and the bottom of the plumb bob 198 is rotatably connected to the spindle fixing seat 192. The ultra-high molecular weight polyethylene fiber thread first passes through the middle guide eye 1962, then downwards through the guide eye of the plumb line pull rod 199, and then upwards through the upper guide eye 1961 before being led out.
[0044] The support frame 2 is a support structure, which includes a first support plate 21 and a second support plate 22. The double support plate design increases the stability of the support. The tensioning mechanism 4, the moving average mechanism 5, and the recovery mechanism 6 are connected to the support frame 2 through the spacer bearing sleeve 23. The spacer bearing sleeve 23 has spacer bearings 231 inside at both ends. The spacer bearing sleeve 23 is located between the first support plate 21 and the second support plate 22 and is fixedly connected to the first support plate 21 and the second support plate 22 respectively.
[0045] The line take-up mechanism 3 includes a first line take-up mechanism 31 and a second line take-up mechanism 32. The first line take-up mechanism 31 and the second line take-up mechanism 32 are used for taking in and guiding the braided fishing line. Both the first line take-up mechanism 31 and the second line take-up mechanism 32 include a line take-up frame, a line take-up plate and a line take-up reel.
[0046] The take-up frame of the first take-up mechanism 31 includes a transverse connecting rod 311, a longitudinal connecting rod 312, and a connecting block 313. The transverse connecting rod 311 and the longitudinal connecting rod 312 are connected by the connecting block 313. The take-up plate of the first take-up mechanism 31 includes a first take-up plate 314 and a take-up guide plate 315. The first take-up plate 314 is connected to the longitudinal connecting rod 312 through a take-up plate groove 3141. The rear end of the take-up guide plate 315 is provided with a guide plate groove 31. 51. The front end of the take-up guide plate 315 is provided with a take-up guide 3152. The take-up guide plate 315 is fixedly connected to the first take-up plate 314 by bolts in the guide plate groove 3151. The take-up wheel of the first take-up mechanism 31 consists of a first take-up wheel 316 and a take-up wheel frame 317. One end of the take-up wheel frame 317 is rotatably connected to the first take-up wheel 316 through a bearing, and the other end of the take-up wheel frame 317 is fixedly connected to the first take-up plate 314. Since the first take-up plate 314 is provided with a take-up plate groove 3141 and the take-up guide plate 315 is provided with a guide plate groove 3151, the relative position of the take-up guide 3152 and the first take-up wheel 316 can be adjusted by the guide plate groove 3151, and the position of the first take-up wheel 316 relative to the lower spindle 19 can be adjusted by the take-up plate groove 3141, thereby facilitating the installation and position adjustment of the first take-up mechanism 31.
[0047] The second take-up mechanism includes a second take-up frame 321, a second take-up plate 322, and a second take-up wheel 323. The second take-up wheel 323 and the second take-up plate 322 are rotatably connected by bearings and a rotating shaft. The second take-up frame 321 fixes the second take-up plate 322 to the support frame 2.
[0048] The tensioning mechanism 4 is equipped with a tensioning shaft 41. The middle part of the tensioning shaft 41 is rotatably connected to the support frame 2 through the spacer bearing 231 in the spacer bearing sleeve 23. The rear end of the tensioning shaft 41 is equipped with a tensioning transmission wheel 42, and the front end of the tensioning shaft 41 is equipped with a multi-groove tensioning wheel 43. The multi-groove tensioning wheel 43 has multiple annular grooves. There are multiple tensioning mechanisms 4, preferably two. The braided fishing line is repeatedly wound between two or more multi-groove tensioning wheels 43 to increase the friction between the braided fishing line and the multi-groove tensioning wheels 43.
[0049] The moving average mechanism 5 includes a moving average shaft 51 and a moving average guide rod 53. The middle part of the moving average shaft 51 is rotatably connected to the support frame 2 through a spacer bearing 231 in the spacer bearing sleeve 23. The rear end of the moving average shaft 51 is provided with a moving average drive wheel 52, and the front end of the moving average shaft 51 is provided with a reciprocating threaded groove. The moving average guide rod 53 is fixedly connected to the second support plate 22 of the support frame 2. A moving average guide block 54 is installed at the front end of the moving average shaft 51 and the moving average guide rod 53. The moving average guide block 54 is connected to the moving average shaft 51 through the reciprocating threaded groove. The rod 53 is slidably connected, and the moving average guide block 54 is provided with a moving average adjustment plate 55. One end of the moving average adjustment plate 55 is provided with an adjustment plate groove 551, and the other end of the moving average adjustment plate 55 is provided with a moving average guide eye 552. The position of the moving average adjustment plate 55 on the moving average guide block 54 can be adjusted by adjusting the plate groove 551. When the moving average transmission wheel 52 drives the moving average rotating shaft 51 to rotate, the moving average guide block 54 reciprocates on the moving average rotating shaft 51 and the moving average guide rod 53. The braided fishing line in the moving average guide eye 552 reciprocates accordingly and is evenly wound on the recovery wheel.
[0050] The recycling mechanism 6 includes a recycling shaft 61. The middle part of the recycling shaft 61 is rotatably connected to the support frame 2 through the spacer bearing 231 in the spacer bearing sleeve 23. The rear end of the recycling shaft 61 is provided with a recycling drive wheel 62, and the front end of the recycling shaft 61 is provided with a recycling wheel 63.
[0051] In order to provide power to the tensioning mechanism 4, the moving average mechanism 5, and the recovery mechanism 6, a take-up motor 7 is provided on the feeding platform 1 or the support frame 2. The take-up motor 7 is connected to the tensioning drive wheel 42, the moving average drive wheel 52, and the recovery drive wheel 62 through the transmission tower wheel 24.
[0052] This invention discloses a square fishing line braiding machine, wherein a feeding platform 1 is provided with a feeding turntable 16, on which multiple spindles 19 are mounted. The lower end of each spindle 19 is provided with a spindle slide 193, which is installed in a multi-ring braiding track groove on the feeding upper plate 11. When the feeding motor 18 drives the feeding turntable 16 to rotate via the drive gear 14, the feeding turntable 16 drives the spindles 19 to slide along the multi-ring braiding track groove 111 via the spindle slide 193. When the spindle slide 193 slides into the multi-ring braiding track groove... When the two circular grooves of 111 are at the tangent point, since the spindle slide 193 preferably slides along the tangential direction, the spindle 19 will rotate from one circular groove into the other circular groove, thereby driving one set of spindles 19 to move clockwise on the multi-ring braiding track groove 111, and driving another set of spindles 19 to move counterclockwise on the multi-ring braiding track groove 111, so that the fishing line material is interwoven and woven to form a square braided fishing line, reducing the gap in the middle of the braided fishing line, making the braided fishing line tighter, and increasing the wear resistance and tensile strength of the fishing line.
[0053] A method for weaving a square fishing line, using the square fishing line weaving machine described above, for example, having 4 feeding turntables 16 and 6 sliding block slots 161, with 3 spindles 19 installed at intervals on each feeding turntable 16, includes the following steps:
[0054] 1. Install fishing line raw materials
[0055] Place the fishing line material on spindle 19. The fishing line material is made of materials such as ultra-high molecular weight polyethylene fiber or expanded polytetrafluoroethylene fiber. Lead the fishing line material out from spindle 19. The fishing line material first passes through the middle guide eye 1962, then passes down through the guide eye of the sinker rod 199, and then passes up through the upper guide eye 1961 before being led out.
[0056] 2. Draw out the fishing line
[0057] The fishing line is led out by first passing through the take-up guide eye 3152, going around the first take-up reel 316, and then repeatedly winding between two or more multi-groove tension reels 43 to increase the friction between the braided fishing line and the multi-groove tension reels 43. Then it goes around the second take-up reel 323, passes through the line guide eye 552, and is wound onto the take-up reel 63.
[0058] 3. Braid a square fishing line
[0059] Since the four circular grooves of the multi-ring braided track groove 111 are connected tangentially in sequence, and two adjacent circular grooves are connected at the point of tangency, that is, the first circular groove 1101 is tangential and connected to the second circular groove 1102 and the fourth circular groove 1104 respectively; the second circular groove 1102 is tangential and connected to the first circular groove 1101 and the third circular groove 1103 respectively; the third circular groove 1103 is tangential and connected to the second circular groove 1102 and the fourth circular groove 1104 respectively; and the fourth circular groove 1104 is tangential and connected to the first circular groove 1101 and the third circular groove 1103 respectively. The line connecting the centers of the four circular grooves forms a square, and the side length of the square is equal to the diameter of the circular groove.
[0060] As shown in Figure 15, one method of weaving a square fishing line involves a spindle 19 mounted on a feeding turntable 16 above the first circular groove 1101 sliding clockwise along the first circular groove 1101. When the spindle 19 reaches the tangent point between the first circular groove 1101 and the second circular groove 1102, it switches to the second circular groove 1102 and continues sliding. The process continues until the spindle 19 reaches the tangent point between the second circular groove 1102 and the third circular groove 1102. When the spindle 19 reaches the tangent point of 103, it switches to slide on the third circular groove 1103. When the spindle 19 moves to the tangent point of the third circular groove 1103 and the fourth circular groove 1104, it switches to slide on the fourth circular groove 1104. When the spindle 19 moves to the tangent point of the fourth circular groove 1104 and the first circular groove 1101, it returns to slide on the first circular groove 1102.
[0061] That is, a set of spindles 19 are installed on the feeding turntable 16 above the first circular annular groove 1101 and the third circular annular groove 1101, and the set of spindles 19 moves clockwise along the above path.
[0062] At this time, spindles 19 are installed on the feeding turntable 16 above the second circular annular groove 1102 and the fourth circular annular groove 1104, forming another group. Their movement direction is counterclockwise sliding. The movement path is as follows: the spindle 19 installed on the feeding turntable 16 above the second circular annular groove 1102 slides counterclockwise along the second circular annular groove 1102. When the spindle 19 moves to the tangent point between the first circular annular groove 1101 and the second circular annular groove 1102, the spindle 19 switches to the first circular annular groove 1101 and continues sliding. When the spindle 19 moves to the tangent point between the first circular groove 1101 and the fourth circular groove 1104, it switches to the fourth circular groove 1104 and continues to slide. When the spindle 19 moves to the tangent point between the third circular groove 1103 and the fourth circular groove 1104, it switches to the third circular groove 1103 and continues to slide. When the spindle 19 moves to the tangent point between the third circular groove 1103 and the second circular groove 1102, it returns to the second circular groove 1102 and slides again.
[0063] Similarly, the movement of the two sets of spindles 19 can also be reverse sliding. Specifically, a set of spindles 19 are installed on the feeding turntable 16 above the first circular annular groove 1101 and the third circular annular groove 1101, and this set of spindles 19 slides counterclockwise along the multi-ring braided track groove 111; another set of spindles 19 are installed on the feeding turntable 16 above the second circular annular groove 1102 and the fourth circular annular groove 1104, and this set of spindles 19 slides clockwise along the multi-ring braided track groove 111.
[0064] In summary, a method for weaving a square fishing line involves the following: the four circular grooves of the multi-ring weaving track groove 111 on the feeding platform 1 are sequentially tangentially connected, with adjacent circular grooves connected at the tangent point. The multiple spindles 19 installed on the four feeding turntables 16 on the feeding platform 1 are divided into two groups. The multiple spindles 19 installed on the two feeding turntables 16 located on one diagonal constitute the first group, and the multiple spindles 19 installed on the two feeding turntables 16 located on the other diagonal constitute the second group. If the first group of spindles 19 slides clockwise along the multi-ring weaving track groove 111, then the second group of spindles 19 slides counterclockwise along the multi-ring weaving track groove 111; if the first group of spindles 19 slides counterclockwise along the multi-ring weaving track groove 111, then the second group of spindles 19 slides clockwise along the multi-ring weaving track groove 111.
[0065] However, the above description is merely a specific embodiment of the present invention and should not be construed as limiting the scope of the present invention. Therefore, any substitution of equivalent components or equivalent changes and modifications made in accordance with the scope of protection of the present invention should still fall within the scope of the claims of the present invention.
Claims
1. A square fishing line braiding machine, characterized in that, The device includes a feeding platform and a support frame. The support frame is equipped with a take-up mechanism, a tensioning mechanism, a averaging mechanism, and a recycling mechanism. The feeding platform has four feeding turntables. The outer ring of each feeding turntable has multiple slide slots evenly distributed. Spindles are installed in the slide slots. Below the feeding turntables is a multi-ring braided track groove, which includes four circular grooves connected tangentially in sequence. Adjacent circular grooves are connected at the tangent point. The spindles installed on the feeding turntables slide sequentially along the multi-ring braided track groove.
2. A square fishing line braiding machine according to claim 1, characterized in that, The feeding platform includes a feeding upper plate, a feeding lower plate, and a feeding side plate. Multiple drive gears are mounted on the feeding lower plate via a drive shaft, and a feeding turntable is fixed above the drive gears.
3. A square fishing line braiding machine according to claim 2, characterized in that, Multiple drive gears are sequentially meshed and connected for transmission, and one of the drive gears is connected to the feeding motor via a transition gear.
4. A square fishing line braiding machine according to claim 1, characterized in that, The support frame includes a first support plate and a second support plate, which are fixedly connected by a spacer bearing sleeve. The spacer bearing sleeve has spacer bearings inside both ends.
5. A square fishing line braiding machine according to claim 1, characterized in that, The take-up mechanism includes a first take-up mechanism and a second take-up mechanism, both of which include a take-up frame, a take-up plate, and a take-up reel.
6. A square fishing line braiding machine according to claim 1, characterized in that, The tensioning mechanism is provided with a tensioning shaft, the middle part of which is rotatably connected to the support frame. The rear end of the tensioning shaft is provided with a tensioning transmission wheel, and the front end of the tensioning shaft is provided with a multi-groove tensioning wheel with multiple annular grooves.
7. A square fishing line braiding machine according to claim 1, characterized in that, The moving average mechanism includes a moving average shaft and a moving average guide rod. The middle part of the moving average shaft is rotatably connected to the support frame. The rear end of the moving average shaft is provided with a moving average drive wheel. The front end of the moving average shaft is provided with a reciprocating threaded groove. The moving average guide rod is fixedly connected to the second support plate of the support frame. A moving average guide block is installed at the front end of the moving average shaft and the moving average guide rod. A moving average adjustment plate is provided on the moving average guide block. One end of the moving average adjustment plate is provided with an adjustment plate groove, and the other end of the moving average adjustment plate is provided with a moving average guide eye.
8. A square fishing line braiding machine according to claim 1, characterized in that, The recycling mechanism includes a recycling shaft, the middle of which is rotatably connected to a support frame. The rear end of the recycling shaft is provided with a recycling drive wheel, and the front end of the recycling shaft is provided with a recycling wheel.
9. A square fishing line braiding machine according to claim 1, characterized in that, The feeding platform or support frame is equipped with a take-up motor, which is connected to the tension drive wheel, the line equalization drive wheel, and the recovery drive wheel via a drive tower wheel.
10. A method for weaving a square fishing line, comprising using a square fishing line weaving machine as described in any one of claims 1-9, wherein multiple spindles mounted on four feeding turntables on the feeding platform are divided into two groups, the multiple spindles mounted on two feeding turntables located on one diagonal constitute the first group, and the multiple spindles mounted on two feeding turntables located on the other diagonal constitute the second group; if the first group of spindles slides clockwise along the multi-ring weaving track groove, then the second group of spindles slides counterclockwise along the multi-ring weaving track groove, and if the first group of spindles slides counterclockwise along the multi-ring weaving track groove, then the second group of spindles slides clockwise along the multi-ring weaving track groove.