A fishing reel and fishing device
By installing a motor-driven transmission shaft on the fishing reel to automatically retrieve the fishing line, combined with a gear set and a retractable winding rod, the problem of low efficiency in manual line retrieval is solved, achieving efficient automatic line retrieval and extending the service life.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 袁野
- Filing Date
- 2025-06-11
- Publication Date
- 2026-06-30
AI Technical Summary
Existing fishing reels use a manual reel-up method, which is inefficient, time-consuming, and labor-intensive. This is especially true when catching large or strong fish, where it is physically demanding. Furthermore, prolonged manual reel-up causes wear and tear on mechanical parts, affecting performance and lifespan.
A motor is installed on the main body of the fishing reel, which drives the transmission shaft to automatically reel in the fishing line. Automatic line reeling is achieved by combining a gear set and a telescopic winding rod, and a manual line reeling mode is also provided to meet different needs.
It improves line retrieval efficiency, reduces physical exertion, extends the lifespan of fishing reels, and enhances the fishing experience.
Smart Images

Figure CN224419833U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of fishing technology, and in particular relates to a fishing reel and a fishing device. Background Technology
[0002] A fishing reel, commonly known as a fishing line reel, is a device used in fishing to store, release, and retrieve fishing line.
[0003] Current fishing reels typically involve manually reeling in the line, but this method is inefficient and time-consuming. Manually reeling in large or strong fish requires significant physical exertion; moreover, the speed of manual reeling is limited by the rotation speed, making it unsuitable for situations requiring rapid line retrieval; furthermore, prolonged manual reeling causes wear and tear on the reel's mechanical components, affecting its performance and lifespan. Utility Model Content
[0004] This utility model provides a fishing reel and fishing device, aiming to solve the problem that the manual reeling method in the prior art is inefficient and time-consuming.
[0005] The present invention is implemented as follows: the fishing reel provided by the present invention includes a main body, the main body including a base and a column, the column being a hollow tube and fixedly connected to the base;
[0006] A spool, fitted onto the post, is used to hold the fishing line.
[0007] A drive shaft passes through the hollow tube of the column, with one end abutting against the base and the other end extending out of the column;
[0008] A spool cover, which has a retractable winding rod, is fixedly connected to one end of the drive shaft that extends out of the column, and covers the spool.
[0009] An electric motor is mounted on the main body and is used to drive the drive shaft to rotate in order to retrieve the fishing line.
[0010] Optionally, the motor is connected to the drive shaft via a transmission assembly.
[0011] Optionally, the transmission assembly includes a first gear and a second gear, the first gear being circumferentially fixedly connected to the transmission shaft, and the second gear being fixedly connected to the output end of the motor, wherein the first gear and the second gear mesh.
[0012] Optionally, the first gear and the second gear mesh via an indirect gear set.
[0013] Optionally, the transmission assembly includes a gear disk and a third gear, the gear disk being circumferentially fixedly connected to the transmission shaft, the third gear being fixedly connected to the output end of the motor, and the gear disk meshing with the second gear.
[0014] Optionally, it also includes a rotatable handle, which is disposed on the main body, and a first bevel gear is disposed on the handle, and a second bevel gear is disposed on the drive shaft, wherein the first bevel gear and the second bevel gear mesh.
[0015] Optionally, it also includes a cable management section and a tray;
[0016] The pallet includes a bushing and a flange, and the bushing is sleeved on the column.
[0017] The wiring section includes a rod, a first connecting plate, and a second connecting plate, wherein the first connecting plate and the second connecting plate are connected together.
[0018] The first connecting plate is provided with a shaft hole and is sleeved on the transmission shaft;
[0019] One end of the rod is connected to the tray, and the other end is connected to the first connecting plate;
[0020] The second connecting plate is connected to the handle, and the connection position is offset from the handle's pivot, which can drive the cable section to move along the transmission shaft.
[0021] Optionally, the motor is unidirectionally driven by the transmission assembly and the transmission shaft.
[0022] Optionally, a rotatable inner cover is provided on the spool, and an outer cover is also provided on the main body. Both the inner cover and the spool are disposed inside the outer cover.
[0023] This utility model embodiment also provides a fishing device, which includes the fishing reel described in any of the above claims.
[0024] This utility model provides a fishing reel and fishing device. Because a motor is installed on the main body of the fishing reel, the automatic retrieval of the fishing line is achieved by the motor drive. This not only improves the efficiency of retrieval and reduces physical exertion, but also provides better performance when rapid retrieval is required, extending the lifespan of the fishing reel and enhancing the overall fishing experience. Attached Figure Description
[0025] Figure 1 An exploded view of the structure of a fishing reel according to an embodiment of this utility model;
[0026] Figure 2A three-dimensional structural diagram of a fishing reel at one angle provided in an embodiment of this utility model;
[0027] Figure 3 A three-dimensional structural diagram of a fishing reel from another angle, according to an embodiment of this utility model;
[0028] Figure 4 A schematic diagram of the main body of a fishing reel provided in an embodiment of this utility model.
[0029] Figure 5 A schematic diagram of the structure of a fishing reel in which the motor and the tray are perpendicular to each other, provided in an embodiment of this utility model;
[0030] Figure 6 A schematic diagram of the wiring section structure provided in an embodiment of this utility model;
[0031] Figure 7 A connection diagram of the handle and the cable portion provided in one embodiment of this utility model;
[0032] Figure 8 Another connection diagram of the handle and the cable section provided in one embodiment of this utility model;
[0033] Figure 9 An assembly diagram of some components of a fishing reel provided in an embodiment of this utility model;
[0034] Figure 10 A schematic diagram of the first cross-sectional structure of a fishing reel according to an embodiment of the present invention;
[0035] Figure 11 A schematic diagram of the cross-sectional structure of a fishing reel in the second direction in a first state according to an embodiment of the present invention;
[0036] Figure 12 A schematic diagram of the cross-sectional structure of the fishing reel in the second state in the second direction according to an embodiment of the present invention.
[0037] Explanation of reference numerals in the attached figures:
[0038] 10. Main body; 101. Base; 102. Column; 11. Tray; 111. Bushing; 112. Flanged edge; 12. Spool; 13. Spool cover; 14. Outer cover; 15. Winding rod; 151. Rod; 152. Spring; 153. Sliding spring seat; 16. Limiting washer; 20. Drive shaft; 30. Motor; 40. Transmission assembly; 41. First gear; 42. Second gear; 43. Gear plate; 44. Third gear; 50. Handle; 51. Handle; 60. Cable routing section; 61. Cable routing rod; 62. First connecting plate; 63. Second connecting plate; 64. Shaft hole; 71. First bevel gear; 72. Second bevel gear. Detailed Implementation
[0039] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present utility model and are not intended to limit the present utility model.
[0040] Current fishing reels typically rely on manual rotation for reeling in the line. However, this manual method is inefficient and time-consuming. When catching large or strong fish, manual reeling not only requires significant physical exertion but is also limited by the speed of manual rotation, making it unsuitable for situations requiring rapid line retrieval. Furthermore, prolonged manual reeling leads to wear and tear on the reel's mechanical components, affecting its performance and lifespan. These problems arising from manual reeling can result in increased fatigue, reduced efficiency, and premature reel wear during actual fishing, negatively impacting the fishing experience and overall catch rate.
[0041] Therefore, in order to solve the above-mentioned technical problems, this utility model provides a fishing reel, a fishing device, and a rope storage device. Because this utility model has a motor installed on the main body of the fishing reel, the fishing line is automatically retrieved via the motor. This not only improves the efficiency of line retrieval and reduces physical exertion, but also achieves better results when rapid line retrieval is required, extends the service life of the fishing reel, and enhances the overall fishing experience.
[0042] Example 1
[0043] Please refer to the following: Figures 1 to 12 This embodiment provides a fishing reel, including:
[0044] The main body includes a base 101 and a column 102. The column 102 is a hollow tube and is fixedly connected to the base 101.
[0045] The spool 12 is fitted onto the post 102 and is used to hold the fishing line.
[0046] The drive shaft passes through the hollow tube of the column 102, with one end abutting against the base 101 and the other end extending out of the column 102.
[0047] The spool cover 13 has a retractable winding rod 15. The spool cover 13 is fixedly connected to one end of the drive shaft extending out of the column 102 and covers the spool 12.
[0048] Motor 30 is mounted on the main body 10 and is used to drive the transmission shaft 20 to rotate in order to retrieve the fishing line.
[0049] The main body includes a base 101 and a column 102. The base 101 serves as the basic support component for the entire fishing reel, providing a stable mounting platform for other components and allowing the reel to be securely placed in a suitable position, such as when mounted on a fishing rod. The base 101 connects and supports the entire reel. The column 102 is a hollow tubular structure. On one hand, it is fixedly connected to the base 101, connecting and supporting the upper components; on the other hand, its hollow internal design provides a channel for the drive shaft 20, allowing it to pass smoothly and ensuring the smooth operation of the transmission structure.
[0050] The spool 12 is mounted on the post 102. The spool 12 is mainly used to store the fishing line, which is wound around the spool 12.
[0051] The drive shaft 20 is a key component for power transmission. It passes through the hollow tube of the column 102, with one end abutting against the base 101 for positioning and support; the other end extends out of the column 102 and is fixedly connected to the spool cover 13. When the motor drives the drive shaft 20 to rotate, the drive shaft 20 transmits the motor's power to the spool cover 13, causing the spool cover 13 to rotate.
[0052] The spool cover 13 has a retractable winding rod 15, which covers the spool 12 and is fixedly connected to one end of the drive shaft 20 extending from the column 102. When extended, the winding rod 15 guides the fishing line, hooks the line, and causes the line to rotate with the spool cover 13, winding the line around the spool 12. The spool cover 13 rotates relative to the spool as the drive shaft rotates, thus completing the line winding operation. When releasing the fishing line, the winding rod 15 retracts, facilitating a smoother release of the line.
[0053] Understandable, such as Figure 10 As shown, the spool cover 13 does not cover the part of the spool 12 used for winding, so as to ensure smooth winding.
[0054] The motor 30, located on the main body 10, is the power source for the fishing reel. It converts electrical energy into mechanical energy, driving the drive shaft 20 to rotate, which in turn rotates the spool cover 13, enabling the retrieval of the fishing line. The motor 30's speed and torque directly affect the speed and ability of the reel to retrieve the fishing line. Specifically, the motor 30 can be powered by a battery or connected to an external power source; this is not a limitation.
[0055] When reeling in the line, the motor 30 starts, driving the drive shaft 20 to rotate. Since there is no connection between the spool 12 and the drive shaft 20, the rotation of the drive shaft 20 does not cause the spool 12 to rotate. The spool cover 13 is fixedly connected to the drive shaft 20 and is driven to rotate by the drive shaft 20. The spool cover 13 covers the spool 12, that is, the spool cover 13 rotates around the spool 12, which allows the fishing line to be wound around the spool 12, completing the reeling in.
[0056] In this embodiment of the fishing reel, a motor 30 is mounted on the main body 10 of the reel. The motor 30 is specifically connected to a drive shaft 20 to drive the drive shaft 20 to retrieve the fishing line. When the motor 30 rotates, it drives the drive shaft 20 to rotate, thereby retrieving the fishing line and completing the automatic retrieval function. The fishing reel can retrieve the fishing line without manual rotation. This not only improves retrieval efficiency and reduces physical exertion, but also provides better performance when rapid line retrieval is required, extending the lifespan of the fishing reel and enhancing the overall fishing experience.
[0057] Specifically, in one possible implementation, the motor 30 can be one of the following: a brushless DC motor, a brushed DC motor, a stepper motor, an AC induction motor, or a servo motor. Specifically, it can be a motor with model number FK-180PH-3735 / 45, a motor with model number 480, or other models, but is not limited thereto; the user can choose according to the actual situation.
[0058] In some embodiments, such as Figure 9 and Figure 10 As shown, the base includes a frame and a limiting block. The relative position of the limiting block and the frame is adjustable. Specifically, the frame and the limiting block can be hinged, snap-fitted, or other easily adjustable connection methods, which are not limited here. One end of the drive shaft abuts against the limiting block, and the column is fixedly connected to the frame. When the limiting block is adjusted, the relative position of the limiting block and the frame changes, which in turn causes the relative position of the drive shaft and the column to change axially. That is, adjusting the limiting block drives the drive shaft to move axially within the central hole of the column.
[0059] The winding rod 15 may include a rod portion 151, a spring 152, and a sliding spring seat 153. The spool cover 13 has a through hole for the rod portion 151 to pass through. One end of the rod portion 151 is connected to the sliding spring seat 153, and the other end corresponds to the position of the through hole. The spring 152 is wound around the rod portion 151, with one end abutting against the sliding spring seat 153 and the other end abutting against the inner wall of the spool cover 13. The sliding spring seat 153 and the spool cover 13 are slidably connected. Specifically, the sliding spring seat 153 may have a U-shaped hole, and the spool cover 13 may have a fixing pin that can slide within the U-shaped hole. A stepped surface is provided on the post near the spool cover 13, and the stepped surface is recessed relative to the outer wall of other parts of the post.
[0060] like Figure 11 As shown, when the adjusting limit block lifts the drive shaft, it lifts the spool cover 13. The spool cover 13 moves along with the winding rod 15. At this time, the spring 152 seat corresponds to the stepped surface on the column. Under the action of the spring force of the spring 152, the spring 152 seat slides into the stepped surface, causing the rod 151 to retract from the spool cover 13.
[0061] like Figure 12 As shown, when the limit block is adjusted to make the drive shaft move down, it will drive the spool cover 13 to move down. The spool cover 13 is moved along with the winding top rod 15. At this time, the spring 152 seat corresponds to the non-step surface on the column, the sliding spring seat 153 abuts against the outer wall of the column, the column pushes the sliding spring seat 153 out, and drives the rod 151 to extend out from the spool cover 13.
[0062] In other embodiments, the winding top rod 15 can be extended or retracted through other structures, which are not limited here.
[0063] During line retrieval, the fishing line is guided by the extended rod 151. The rod 151 restrains and guides the line, hooking it and causing it to wind, preventing tangling, knots, or other messy situations. This helps maintain a neat line alignment, improving the efficiency and lifespan of the fishing reel.
[0064] In some embodiments, an outer cover 14 is also provided on the main body 10, and the spool cover 13 and the spool 12 are both disposed inside the outer cover 14.
[0065] The outer cover 14 is installed on the main body 10, enclosing both the spool cover 13 and the spool 12 inside. This enhances the protection of the internal components, preventing debris and water from entering the fishing reel and affecting the normal operation of each component. It also improves the overall aesthetics and safety of the fishing reel. The outer cover 14 can be provided with a line hole to allow the fishing line to pass through, facilitating the release and storage of the fishing line.
[0066] Example 2
[0067] In some embodiments, the motor 30 is connected to the drive shaft 20 via the transmission assembly 40.
[0068] The output end of the motor 30 is indirectly connected to the drive shaft 20 via the transmission assembly 40. On the one hand, the transmission assembly 40 can easily adjust the transmission ratio, thereby changing the speed and torque of the drive shaft 20, so that the fishing reel can better adapt to different fishing needs. On the other hand, the transmission assembly 40 can realize the conversion of the rotational motion of the motor 30 to different motion modes of the drive shaft 20, that is, to change the direction of rotation, making the installation of the motor 30 more flexible.
[0069] In some embodiments, the transmission assembly 40 includes a first gear 41 and a second gear 42. The first gear 41 is fixedly connected to the transmission shaft 20, and the second gear 42 is fixedly connected to the output end of the motor 30. The first gear 41 and the second gear 42 mesh.
[0070] In this embodiment, the axis of the drive shaft 20 is parallel to the axis of the output end of the motor 30. The first gear 41 is circumferentially fixedly connected to the drive shaft 20, and the first gear 41 drives the drive shaft 20 to rotate. The second gear 42 is fixedly connected to the output end of the motor 30, and the output end of the motor 30 drives the second gear 42 to rotate. The first gear 41 and the second gear 42 mesh, so the second gear 42 drives the first gear 41 to rotate. When the motor 30 starts, the output end of the motor 30 drives the second gear 42 to rotate, the second gear 42 drives the first gear 41 to rotate, and then the first gear 41 drives the drive shaft 20 to rotate. The output end of the motor 30, the second gear 42, and the first gear 41 drive the transmission in sequence, rotating or stopping simultaneously.
[0071] Understandably, the first gear 41 is circumferentially fixedly connected to the transmission shaft 20. Specifically, the first gear 41 and the transmission shaft 20 can be fixedly connected, or an anti-rotation structure can be set between the first gear 41 and the transmission shaft 20 to prevent relative rotation between the first gear 41 and the transmission shaft 20. For example, the cross-section at the connection position of the first gear 41 and the transmission shaft 20 can be set to be non-circular.
[0072] Understandably, the first gear 41 and the second gear 42 can mesh directly or through an indirect gear set. An indirect gear set consists of multiple gears that mesh sequentially or rotate coaxially to form a transmission chain. For example, an indirect gear set may include coaxial gears A and B, where the radius of gear A is larger than that of gear B. Gear A meshes with the first gear 41, and gear B meshes with the second gear 42. This changes the transmission ratio and increases the distance between the drive shaft 20 and the motor 30, facilitating the placement of the motor 30.
[0073] The indirect gear set increases the flexibility and versatility of the transmission. By adjusting the number, number of teeth, and arrangement of gears in the indirect gear set, a wider range of transmission ratios can be adjusted, allowing the fishing reel to adapt to more different fishing scenarios and needs. In addition, the indirect gear set can also change the direction and path of transmission, optimizing the internal spatial layout of the fishing reel.
[0074] like Figure 5 As shown, in some embodiments, the transmission assembly 40 includes a gear 43 and a third gear 44. The gear 43 is circumferentially fixedly connected to the transmission shaft 20, and the third gear 44 is fixedly connected to the output end of the motor. The gear 43 meshes with the second gear.
[0075] Understandably, the gear disk 43 is circumferentially fixedly connected to the drive shaft 20. Specifically, the gear disk 43 and the drive shaft 20 can be fixedly connected, or an anti-rotation structure can be set between the gear disk 43 and the drive shaft 20 to prevent relative rotation between the gear disk 43 and the drive shaft 20. For example, the cross-section at the connection position between the gear disk 43 and the drive shaft 20 can be set to be non-circular.
[0076] In this embodiment, the axis of the drive shaft 20 is perpendicular to the axis of the output end of the motor 30. The gear disk 43 is fixedly connected to the drive shaft 20, and the gear disk 43 drives the drive shaft 20 to rotate. The third gear 44 is fixedly connected to the output end of the motor 30, and the output end of the motor 30 drives the third gear 44 to rotate. The gear disk 43 and the third gear 44 mesh, so the third gear 44 drives the gear disk 43 to rotate. When the motor 30 starts, the output end of the motor 30 drives the third gear 44 to rotate, the third gear 44 drives the gear disk 43 to rotate, and then the gear disk 43 drives the drive shaft 20 to rotate. The output end of the motor 30, the third gear 44, and the gear disk 43 drive the transmission in sequence, rotating or stopping simultaneously.
[0077] The transmission structure of the toothed disc 43 and the third gear 44 is relatively simple, reducing the manufacturing cost and maintenance difficulty of the fishing reel. At the same time, this transmission method can provide a large transmission torque, ensuring sufficient power for the fishing reel during line retrieval. Furthermore, the meshing transmission stability of the toothed disc 43 and the third gear 44 is good, ensuring smooth power transmission.
[0078] Example 3
[0079] In some embodiments, please refer to Figures 1 to 5 In addition to the automatic line reeling method via motor 30, the fishing reel also includes a rotatable handle 50, which is mounted on the main body 10. A first bevel gear 71 is mounted on the handle 50, and a second bevel gear 72 is mounted on the drive shaft 20. The first bevel gear 71 and the second bevel gear 72 mesh with each other.
[0080] Specifically, in this embodiment of the invention, a handle 50 is also provided on the main body 10 of the fishing reel. For ease of operation, the handle 50 is located on the side of the main body 10, and the direction of the rotation axis of the handle 50 is perpendicular to the axial direction of the transmission shaft 20. A first bevel gear 71 is provided on the handle 50, and a second bevel gear 72 is provided on the transmission shaft 20. The first bevel gear 71 and the second bevel gear 72 mesh. When the handle 50 is manually rotated, the first bevel gear 71 rotates accordingly. Since the first bevel gear 71 meshes with the second bevel gear 72, the second bevel gear 72 also rotates, thereby driving the transmission shaft 20 to rotate, ultimately causing the spool 12 to rotate and enabling manual retrieval of the fishing line.
[0081] In this way, users can also turn the handle 50 to retrieve the fishing line, so that the fishing reel can have both automatic and manual retrieval methods. Users can choose the most suitable retrieval method according to the specific situation, thereby improving the flexibility of use.
[0082] Example 4
[0083] Based on Embodiment 3, in some optional embodiments, please refer to the following: Figure 1 as well as Figures 6 to 9 The fishing reel also includes: a line guide section 60 and a tray 11;
[0084] The pallet 11 includes a bushing 111 and a flange 112, with the bushing 111 sleeved on the column 102;
[0085] The cable section 60 includes a cable rod 61, a first connecting plate 62 and a second connecting plate 63, and the first connecting plate 62 and the second connecting plate 63 are connected together.
[0086] The first connecting plate 62 is provided with a shaft hole 64, which is sleeved on the transmission shaft 20;
[0087] One end of the rod 61 is connected to the tray 11, and the other end is connected to the first connecting plate 62;
[0088] The second connecting plate 63 is connected to the handle 50. The connection position is offset from the rotating shaft of the handle 50, which can drive the cable section 60 to move along the transmission shaft 20.
[0089] Specifically, the tray 11 is used to hold the spool 12 and connect to the cable tray 60. The sleeve 111 of the tray 11 is fitted onto the column 102, allowing relative movement between the sleeve 111 and the column 102. Furthermore, the sleeve 111 and the column 102 can have a clearance fit, ensuring that the sleeve 111 can rotate flexibly relative to the column 102 while maintaining relative stability to a certain extent. The sleeve 111 provides a support shaft for the spool, allowing the spool 12 to be fitted and rotated. The flange 112 restricts the axial movement of the spool 12 and supports it.
[0090] The spool 12 is mounted on the post 102. The spool 12 is primarily used to hold the fishing line, which is wound around it. Specifically, a limiting washer 16 is provided on the bushing 111. The limiting washer 16 is detachably mounted on the bushing 111 for easy removal of the spool. The spool is positioned between the flange 112 and the limiting washer 16 to prevent it from detaching from the bushing 111.
[0091] The fishing reel also features a line-laying section 60, which includes a rod 61, a first connecting plate 62, and a second connecting plate 63. One end of the rod 61 is connected to the tray 11, and the other end is connected to the first connecting plate 62. The first connecting plate 62 has a shaft hole 64 through which the drive shaft 20 passes. The rod 61 is fixedly connected to both the tray 11 and the first connecting plate 62, allowing the tray 11 and the line-laying section 60 to move simultaneously. The diameter of the shaft hole 64 is slightly larger than the outer diameter of the drive shaft 20 to allow the first connecting plate 62 to slide relative to the drive shaft 20, while ensuring the fit between the two to prevent excessive wobbling and ensure the stability of power transmission.
[0092] The second connecting plate 63 is connected to the handle 50, and the connection position is offset from the rotation axis of the handle 50, which can drive the cable tray 60 to move along the drive shaft 20. The second connecting plate 63 is eccentrically connected to the handle 50, so that the connection position of the second connecting plate 63 and the handle 50 changes continuously as the handle 50 rotates. The component of this position change along the axial direction of the drive shaft 20 also changes, thereby driving the cable tray 60 to reciprocate along the drive shaft 20, and in turn driving the tray and the spool sleeved on the tray to move up and down.
[0093] Specifically, such as Figure 7 As shown, the second connecting plate 63 and the handle 50 can be connected by an eccentric wheel. A connecting groove is provided on the second connecting plate 63, and a slider is provided on the handle 50 at a position offset from the pivot of the handle 50. The slider can slide along the groove. Figure 8 As shown, the second connecting plate 63 and the handle 50 can also be connected by a cam, with the cam mounted on the handle 50 and a contact wheel mounted on the second connecting plate 63, the contact wheel abutting against the cam. Alternatively, other eccentric connection structures can be used, which will not be elaborated here.
[0094] The line guide section 60 allows it to reciprocate along the drive shaft 20, ensuring that the fishing line is evenly distributed on the spool 12 during retrieval, preventing tangling and accumulation, and improving the neatness and reliability of retrieval. Furthermore, the line guide section 60 is connected to the handle 50 via a transmission mechanism. Specifically, the line guide section 60 can be a line guide frame, a guide wirer, a line guide cam, etc., but is not limited to these.
[0095] In some embodiments, a spring is sleeved on the drive shaft 20, with one end of the spring contacting the main body 10 and the other end contacting the tray 11. Specifically, when the second connecting plate 63 and the handle 50 are connected by an eccentric wheel, the spring is a compression spring, and the tray 11 is moved away from the main body 10 by the spring force, helping the tray 11 to return to its original position; when the second connecting plate 63 and the handle 50 are also connected by a cam, the spring is a tension spring, and the tray 11 is moved closer to the main body 10 by the spring force, helping the cam to maintain contact with the contact wheel.
[0096] In some embodiments, please refer to Figures 6 to 9 Regarding the specific location of the line-laying section 60 on the fishing reel, in one possible embodiment, the line-laying section 60 is disposed within the main body 10; the handle 50 has a handle 51, and the direction of the movement component of the handle 51 in the axial direction of the drive shaft 20 is opposite to the movement direction of the line-laying section 60. In this embodiment of the invention, the line-laying section 60 may specifically be a line-laying frame.
[0097] Specifically, because the motor 30 is connected to the drive shaft 20, and the handle 50 is also connected to the drive shaft 20, when the motor 30 drives the drive shaft 20 to rotate, the drive shaft 20 also drives the handle 51 of the handle 50 to rotate. Therefore, during the process of the motor 30 driving the handle 51 to rotate freely, the handle 51 will generate a lateral force on the fishing reel, which will cause the fishing reel to wobble and vibrate, thus affecting the stability of the fishing reel's line retrieval, the overall line retrieval effect, and the user experience.
[0098] Therefore, in this embodiment of the invention, the line-laying section 60 reciprocates linearly along the drive shaft 20, while the handle 51 of the handle 50 rotates in a circular motion. By setting the direction of movement of the handle 51 in the axial direction of the drive shaft 20 to be opposite to the direction of movement of the line-laying section 60, the reverse movement of the line-laying section 60 can partially offset the lateral force generated by the rotation of the handle 51, thereby reducing swaying and vibration, and improving the stability of the fishing reel's line retrieval.
[0099] Furthermore, in addition to setting the movement direction of the line guide 60 to improve the stability of the fishing reel's line retrieval, the angle of the handle 51 can also be adjusted to achieve dynamic balance of the fishing reel's line retrieval, thereby improving the stability of the fishing reel's line retrieval. That is, the handle 51 can be set to be an adjustable handle 51.
[0100] Example 5
[0101] In some embodiments, the motor 30 is unidirectionally driven by the transmission assembly 40 and the transmission shaft 20.
[0102] That is, the rotation of motor 30 can drive the rotation of transmission shaft 20, but the rotation of transmission shaft 20 cannot drive the rotation of drive motor 30.
[0103] Specifically, the component in transmission assembly 40 connected to transmission shaft 20 can be connected to transmission shaft 20 via a one-way bearing. The one-way bearing locks when driven by motor 30 and moves when rotated in the opposite direction. Alternatively, the component in transmission assembly 40 connected to transmission shaft 20 can be connected to transmission shaft 20 via a ratchet and pawl. The ratchet and pawl locks when driven by motor 30 and moves when rotated in the opposite direction. Other one-way drive components can also be used to connect the component in transmission assembly 40 to transmission shaft 20; this is not limited here.
[0104] For example, when the one-way drive unit rotates the drive shaft 20 in the forward direction, that is, when the one-way drive unit rotates in the forward direction relative to the drive shaft 20, the one-way drive unit is locked. When the handle 50 is used to rotate the drive shaft 20, the drive shaft 20 rotates in the forward direction relative to the one-way drive unit, that is, the one-way drive unit rotates in the reverse direction relative to the drive shaft 20. At this time, the one-way drive unit is active, and the rotation of the drive shaft 20 cannot be transmitted to the motor 30. The motor 30 remains closed and will not rotate with the rotation of the drive shaft 20.
[0105] This unidirectional drive configuration ensures that the rotation of the drive shaft 20 does not reverse-drive the motor 30, keeping the motor 30 stationary and preventing wear and instability caused by reverse drive. This ensures the motor 30 operates effectively during automatic line reeling, while remaining unaffected by reverse drive during manual reeling, thus improving the stability and durability of the fishing reel.
[0106] Example 6
[0107] The fishing device of this utility model includes a fishing reel of any one of embodiments one to five.
[0108] Therefore, the fishing device of this utility model embodiment, since the main body 10 of its fishing reel is equipped with a motor 30, the fishing line can be automatically retrieved by the motor 30. This not only improves the efficiency of retrieving the line and reduces physical exertion, but also achieves better results when the fishing line needs to be retrieved quickly, extends the service life of the fishing reel, and enhances the overall fishing experience.
[0109] In the description of this specification, the references to terms such as "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with an embodiment or example is included in at least one embodiment or example of this application. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.
[0110] It should be noted that this utility model uses a fishing reel, fishing device, and rope storage device as examples to introduce the specific structure and working principle of this utility model. However, the application of this utility model is not limited to a fishing reel, fishing device, and rope storage device, and can also be applied to the production and use of other similar workpieces.
[0111] It should be understood that this invention is not limited to the precise structure described above and shown in the accompanying drawings, and various modifications and changes can be made without departing from its scope. The scope of this invention is limited only by the appended claims.
[0112] Furthermore, the above are merely preferred embodiments of this application and are not intended to limit this application. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this application should be included within the scope of protection of this application.
Claims
1. A fishing reel, characterized in that, The fishing reel includes: The main body includes a base and a column, wherein the column is a hollow tubular structure and is fixedly connected to the base; A spool, fitted onto the post, is used to hold the fishing line. A drive shaft passes through the hollow tube of the column, with one end abutting against the base and the other end extending out of the column; A spool cover, which has a retractable winding rod, is fixedly connected to one end of the drive shaft that extends out of the column, and covers the spool. An electric motor is mounted on the main body and is used to drive the drive shaft to rotate in order to retrieve the fishing line.
2. The fishing reel according to claim 1, characterized in that, The motor is connected to the drive shaft via a transmission assembly.
3. The fishing reel according to claim 2, characterized in that, The transmission assembly includes a first gear and a second gear. The first gear is circumferentially fixedly connected to the transmission shaft, and the second gear is fixedly connected to the output end of the motor. The first gear and the second gear mesh.
4. The fishing reel according to claim 3, characterized in that, The first gear and the second gear mesh via an indirect gear set.
5. The fishing reel according to claim 3, characterized in that, The transmission assembly includes a gear disk and a third gear. The gear disk is circumferentially fixedly connected to the transmission shaft, and the third gear is fixedly connected to the output end of the motor. The gear disk meshes with the second gear.
6. The fishing reel according to claim 1, characterized in that, It also includes a rotatable handle, which is disposed on the main body. The handle is provided with a first bevel gear, and a second bevel gear is disposed on the drive shaft. The first bevel gear and the second bevel gear mesh.
7. The fishing reel according to claim 6, characterized in that, It also includes the cable management section and the tray; The pallet includes a bushing and a flange, and the bushing is sleeved on the column. The wiring section includes a rod, a first connecting plate, and a second connecting plate, wherein the first connecting plate and the second connecting plate are connected together. The first connecting plate is provided with a shaft hole and is sleeved on the transmission shaft; One end of the rod is connected to the tray, and the other end is connected to the first connecting plate; The second connecting plate is connected to the handle, and the connection position is offset from the handle's pivot, which can drive the cable section to move along the transmission shaft.
8. The fishing reel according to claim 5, characterized in that, The motor is unidirectionally driven by the transmission assembly and the transmission shaft.
9. The fishing reel according to claim 1, characterized in that, A rotatable inner cover is provided on the spool, and an outer cover is also provided on the main body. Both the inner cover and the spool are located inside the outer cover.
10. A fishing device, characterized in that, Including the fishing reel as described in any one of claims 1 to 9.