An automatic hooking fishing tackle

By designing an automatic hook-lifting fishing gear, which utilizes elastic components and drive components to automatically hook the fish hook, the problems of inconvenient operation and safety hazards of existing fishing gear are solved, thereby improving the success rate and safety of fishing.

CN224386545UActive Publication Date: 2026-06-23王元杰

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
王元杰
Filing Date
2025-07-29
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing hook-type fishing gear requires fishermen to actively lift the rod, which easily leads to fish escaping, and the fishing line getting caught in power lines poses a safety hazard.

Method used

Design an automatic hook-lifting fishing tackle that uses elastic components and drive components to automatically lift the fish hook, eliminating the need for the fish hook to be paired with the fishing rod. Through the cooperation of the buckle component and drive component, the fish hook is automatically hooked, avoiding manual operation.

Benefits of technology

It improved the success rate of fishing, enhanced safety, avoided fish escaping and electric shock accidents from fishing lines, and simplified the operation process.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses an automatic hook lifting fishing tool, and belongs to the technical field of fishing tools.The automatic hook lifting fishing tool comprises an auxiliary part, a pulling rope is connected to the auxiliary part, an elastic member is connected to the left end of the auxiliary part, the right end of the elastic member is detachably connected to the right end of the auxiliary part through a buckle assembly, a driving assembly corresponding to the buckle assembly is arranged at the right end of the auxiliary part, a fishing line is connected to the buckle assembly, the fishing line passes through the driving assembly, and the outer end of the fishing line is provided with a fish hook.The elastic member of the application can quickly pull back the fish hook during recovery, and instantly hooks the fish hook on the fish mouth, so that the automatic hook lifting can be realized, the situation that the fish runs away due to the fishing personnel lifting the rod too early or too late is avoided, the fishing personnel is more relaxed, and the fishing success rate is higher.In addition, the fishing tool cancels the mode that the traditional fish hook must be matched with a fishing rod, saves the step of the fishing personnel throwing the fishing line, avoids the situation that the fishing line is thrown into the electric wire, and improves the safety.
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Description

Technical Field

[0001] This utility model belongs to the field of fishing gear technology, specifically relating to an automatic hook-lifting fishing gear. Background Technology

[0002] Fishing gear is a general term for all kinds of tools used directly for catching and harvesting economically valuable aquatic animals such as fish, shrimp, crabs, and shellfish in waters. It generally includes nets and hooks. Fishing gear is the core tool of fishing activities, and its evolution spans the history of human fisheries. Modern classification takes into account both scientific rigor and management needs, reflecting both technological diversity (such as the precision of longline fishing and the efficiency of trawls) and ecological protection orientation (such as mesh size restrictions). The correct use of compliant fishing gear is crucial for balancing fishery resource development and sustainable development. Currently, existing hook-type fishing gear requires fishermen to actively lift the rod to hook the fish based on whether it has taken the bait. However, lifting the rod too early or too late can result in the fish escaping. Furthermore, existing hook-type fishing gear is used in conjunction with a fishing line and rod; if the fishing line accidentally touches an electrical wire while casting, it can cause an electric shock, posing a safety hazard. Summary of the Invention

[0003] The purpose of this utility model is to overcome the shortcomings of the prior art and provide an automatic hook-lifting fishing gear, which solves the problems mentioned in the background art.

[0004] The purpose of this utility model is achieved as follows: an automatic fishing tackle includes an auxiliary part, to which a pull rope is connected. An elastic element is connected to the left end of the auxiliary part, and the right end of the elastic element is detachably connected to the right end of the auxiliary part via a snap-fit ​​assembly. A drive component corresponding to the snap-fit ​​assembly is provided on the right end of the auxiliary part. A fishing line is connected to the snap-fit ​​assembly, and the fishing line passes around the drive component. A fishhook is attached to the outer end of the fishing line. In use, the outer end of the pull rope is placed on the shore and fixed. The auxiliary part is placed on the ground or near the water. Fish bait is attached to the hook, and the elastic element is stretched, causing its right end to snap into contact with the right end of the auxiliary part via the snap-fit ​​assembly. Simultaneously, the drive component is adjusted to a state ready to trigger the snap-fit ​​assembly, and the fishing line passes around the drive component. When a fish takes the bait, it pulls the fishing line, which in turn activates the drive component. This component then engages the locking mechanism, causing the right end of the elastic element to separate from the right end of the auxiliary part. The elastic element then returns to its original position, sharply pulling the hook back and instantly securing it firmly in the fish's mouth. This automatic hook-up prevents fishermen from escaping the fish by lifting the rod too early or too late, making fishing easier and increasing the success rate. Furthermore, this fishing tackle eliminates the traditional requirement of using a fishing rod with the hook, saving fishermen the step of casting the line and preventing the line from getting caught in power lines, thus improving safety.

[0005] Furthermore, the auxiliary part is a rectangular tube with no top wall. A through hole is provided at the left end of the rectangular tube. The elastic element is a rubber band, with its left end extending through the through hole to the outside of the rectangular tube. A sealing block is provided at the left end of the rubber band, the diameter of which is larger than the diameter of the through hole. The buckle assembly includes a retaining ring connected to the right end of the rubber band and a retaining groove formed on the side wall of the rectangular tube. A retaining protrusion corresponding to the retaining groove is provided at the right end of the retaining ring. The fishing line is connected to the retaining ring. In use, after baiting the hook, the retaining protrusion of the retaining ring is hooked into the retaining groove. At this time, the rubber band between the sealing block and the retaining ring is stretched and in a stored-force state. When the fish bites, it pulls the fishing line, causing the drive assembly to move the retaining ring upwards, separating the retaining protrusion from the retaining groove. Once separated, the rubber band springs back, instantly hooking the fish hook into the fish's mouth. The elastic element can also be replaced with other elastic elements besides rubber bands to change the elasticity. The elastic element should be adjusted appropriately according to the size of the fish.

[0006] Furthermore, the drive assembly includes a horizontal shaft fixedly disposed inside the right end of the rectangular tube. A rotating cylinder is rotatably connected to the outside of the horizontal shaft. A lifting rod and a drive rod are fixedly connected to the outer wall of the rotating cylinder. The end of the lifting rod away from the rotating cylinder extends to the bottom of the retaining ring. A support head is fixedly disposed at the end of the drive rod away from the rotating cylinder. In use, after the fisherman baits the hook, he rotates the rotating cylinder to adjust the position of the lifting rod and the drive rod, so that the drive rod is in a vertical position. At this time, the lifting rod is located on the bottom surface inside the rectangular tube. When the retaining ring's locking protrusion is hooked into the retaining groove, the lifting rod is exactly below the retaining ring. The fishing line is placed above the support head. When the fishing line is pulled by the fish, the drive rod rotates outward, and the lifting rod swings upward, separating the locking protrusion from the retaining groove.

[0007] Furthermore, the left end of the rubber band is connected to a line, and the left end of the line is connected to a ground stake, the left end of which has a pointed tip. In use, the ground stake is inserted into the mud near the water's edge through its pointed tip to secure the outer end of the line. Then, the baited hook is thrown into the water, preventing large fish from dragging the entire fishing gear underwater. Once the ground stake is secured in the mud, the fisherman can leave to set up the next fishing tackle. Once a fish takes the bait, it cannot escape; the fisherman only needs to wait a certain amount of time before returning to reel it in. This eliminates the need for the fisherman to constantly monitor the water, freeing up their hands.

[0008] The beneficial effects of this utility model are as follows: This fishing tackle eliminates the traditional requirement of using a fishing rod with a fishhook, saving fishermen the step of casting the fishing line and preventing the fishing line from getting caught in the power line, thus improving safety. In use, bait is attached to the hook, and the elastic element is stretched, causing its right end to engage with the right end of the auxiliary part via the locking assembly. Simultaneously, the drive component is adjusted to the ready-to-trigger state, and the fishing line is routed around the drive component. When a fish bites, it pulls the fishing line, which in turn drives the drive component, triggering the locking assembly and separating the right end of the elastic element from the right end of the auxiliary part. The elastic element then returns to its original state. During this return process, a sharp pull back on the hook instantly and firmly hooks it into the fish's mouth, achieving automatic hook lifting. This prevents fishermen from lifting the rod too early or too late, resulting in lost fish, making fishing easier and increasing the success rate. Attached Figure Description

[0009] Figure 1 This is a front-view three-dimensional structural schematic diagram of the present invention;

[0010] Figure 2 This is the utility model Figure 1 Enlarged view of A in the middle;

[0011] Figure 3 This is the utility model Figure 1 Enlarged view of B in the middle;

[0012] Figure 4 This is a left-view stereoscopic structural diagram of the present invention;

[0013] Figure 5 This is a right-view stereoscopic structural diagram of the present invention.

[0014] In the diagram: 1. Auxiliary part, 2. Pull rope, 3. Elastic element, 4. Fishing line, 5. Fish hook, 6. Rectangular tube, 7. Through hole, 8. Sealing block, 9. Snap ring, 10. Snap groove, 11. Snap protrusion, 12. Rotary cylinder, 13. Thrusting rod, 14. Drive rod, 15. Support head, 16. Line, 17. Ground anchor, 18. Tip. Detailed Implementation

[0015] The present invention will now be described in further detail with reference to the accompanying drawings. It should be noted that all directional terms such as up, down, front, back, left, and right appearing in the present invention are in accordance with the principle of directional orientation. Figure 1 All directional terms are not intended to limit this utility model, but are merely for the purpose of more clearly explaining and interpreting it. Example

[0016] like Figure 1-5As shown, this embodiment discloses an automatic hook-lifting fishing tackle, which includes an auxiliary part 1. The auxiliary part 1 is connected to a pull rope 2. An elastic element 3 is connected to the left end of the auxiliary part 1. The right end of the elastic element 3 is detachably connected to the right end of the auxiliary part 1 via a buckle assembly. A drive component corresponding to the buckle assembly is provided on the right end of the auxiliary part 1. A fishing line 4 is connected to the buckle assembly. The fishing line 4 passes around the drive assembly, and a fishhook 5 is provided at the outer end of the fishing line 4. In use, the outer end of the pull rope 2 is placed on the shore and fixed. The auxiliary part 1 is placed on the ground or by the water. Fish bait is hooked onto the fishhook 5. The elastic element 3 is then stretched, and the right end of the elastic element 3 is engaged with the right end of the auxiliary part 1 via the buckle assembly. At the same time, the drive assembly is adjusted to a state ready to trigger the buckle assembly, and the fishing line 4 passes around the drive assembly. When a fish takes the bait, it pulls on the fishing line 4. This pull activates the drive assembly, which in turn activates the locking assembly, causing the right end of the elastic element 3 to separate from the right end of the auxiliary part 1. The elastic element 3 then returns to its original position, sharply pulling back the hook 5 and instantly securing it firmly in the fish's mouth. This automatic hook-up prevents fishermen from lifting the rod too early or too late, resulting in lost fish and making fishing easier and increasing the success rate. Furthermore, this fishing tackle eliminates the traditional requirement of using a fishing rod with the hook 5, saving fishermen the step of casting the fishing line 4 and preventing it from getting caught in the power line, thus improving safety. Example

[0017] like Figure 1-5 As shown, this embodiment discloses an automatic hook-lifting fishing tackle, which includes an auxiliary part 1. The auxiliary part 1 is connected to a pull rope 2. An elastic element 3 is connected to the left end of the auxiliary part 1. The right end of the elastic element 3 is detachably connected to the right end of the auxiliary part 1 via a buckle assembly. A drive component corresponding to the buckle assembly is provided on the right end of the auxiliary part 1. A fishing line 4 is connected to the buckle assembly. The fishing line 4 passes around the drive assembly, and a fishhook 5 is provided at the outer end of the fishing line 4. In use, the outer end of the pull rope 2 is placed on the shore and fixed. The auxiliary part 1 is placed on the ground or by the water. Fish bait is hooked onto the fishhook 5. The elastic element 3 is then stretched, and the right end of the elastic element 3 is engaged with the right end of the auxiliary part 1 via the buckle assembly. At the same time, the drive assembly is adjusted to a state ready to trigger the buckle assembly, and the fishing line 4 passes around the drive assembly. When a fish takes the bait, it pulls on the fishing line 4. This pull activates the drive assembly, which in turn activates the locking assembly, causing the right end of the elastic element 3 to separate from the right end of the auxiliary part 1. The elastic element 3 then returns to its original position, sharply pulling back the hook 5 and instantly securing it firmly in the fish's mouth. This automatic hook-up prevents fishermen from lifting the rod too early or too late, resulting in lost fish and making fishing easier and increasing the success rate. Furthermore, this fishing tackle eliminates the traditional requirement of using a fishing rod with the hook 5, saving fishermen the step of casting the fishing line 4 and preventing it from getting caught in the power line, thus improving safety.

[0018] For better results, the auxiliary part 1 is a rectangular tube 6, which has no top wall. A through hole 7 is provided at the left end of the rectangular tube 6. The elastic element 3 is a rubber band, with its left end extending through the through hole 7 to the outside of the rectangular tube 6. A sealing block 8 is provided at the left end of the rubber band, and the diameter of the sealing block 8 is larger than the diameter of the through hole 7. The buckle assembly includes a retaining ring 9 connected to the right end of the rubber band and a retaining groove 10 formed on the side wall of the rectangular tube 6. A retaining protrusion 11 corresponding to the retaining groove 10 is provided at the right end of the retaining ring 9. The fishing line 4 is connected to the retaining ring 9. In use, after hooking the bait onto the hook 5, the retaining protrusion 11 of the retaining ring 9 is hooked into the retaining groove 10. At this time, the rubber band between the sealing block 8 and the retaining ring 9 is stretched and in a stored-force state. When a fish takes the bait, it pulls the fishing line 4, causing the drive component to move the retaining ring 9 upwards. This causes the retaining protrusion 11 to separate from the retaining groove 10. Once separated, the elastic band springs back, instantly hooking the fish hook 5 into the fish's mouth. The elastic element 3 can also be replaced with other elastic elements besides the elastic band to change the elasticity. Depending on the size of the fish, the elastic element 3 can be adjusted appropriately to target and catch a specific type of large, harmful invasive fish, achieving capture without damaging the ecological environment, such as the suckermouth catfish.

[0019] For better performance, the drive assembly includes a horizontal shaft fixedly installed inside the right end of the rectangular cylinder 6. A rotating cylinder 12 is rotatably connected to the outside of the horizontal shaft. A lifting rod 13 and a drive rod 14 are fixedly connected to the outer wall of the rotating cylinder 12. The end of the lifting rod 13 away from the rotating cylinder 12 extends below the retaining ring 9, and a support head 15 is fixedly installed at the end of the drive rod 14 away from the rotating cylinder 12. In use, after the fisherman baits the hook 5, he rotates the rotating cylinder 12 to adjust the position of the lifting rod 13 and the drive rod 14 so that the drive rod 14 is in a vertical position. At this time, the lifting rod 13 is located on the bottom surface inside the rectangular cylinder 6. When the retaining protrusion 11 of the retaining ring 9 is hooked into the retaining groove 10, the lifting rod 13 is exactly below the retaining ring 9. The fishing line 4 is placed above the support head 15. When the fishing line 4 is pulled by the fish, the drive rod 14 rotates outward, and the lifting rod 13 swings upward, separating the retaining protrusion 11 from the retaining groove 10.

[0020] For better results, a rope 16 is connected to the left end of the rubber band, and a ground-holding pole 17 is connected to the left end of the rope 16. The ground-holding pole 17 has a pointed end 18 at its left end. In use, the ground-holding pole 17 is inserted into the mud near the water's edge through the pointed end 18 to secure the outer end of the rope 16. Then, the fishhook 5 with bait is thrown into the water to prevent large fish from dragging the entire fishing gear into the water. After securing the ground-holding pole 17 in the mud, the fisherman can leave to set up the next fishing gear. Once the fish takes the bait, it cannot escape. After a certain period of time, the fisherman can return to reel in the fish. There is no need for the fisherman to keep an eye on the water, freeing up their hands.

[0021] The above are merely preferred embodiments of this utility model, but the scope of protection of this utility model is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in this utility model, based on the technical solution and concept of this utility model, should be included within the scope of protection of this utility model.

Claims

1. An automatic fishing tackle for lifting hooks, comprising an auxiliary part, wherein the auxiliary part is connected to a pull rope, characterized in that, The left end of the auxiliary part is connected to an elastic element, and the right end of the elastic element is detachably connected to the right end of the auxiliary part through a snap-fit ​​assembly. The right end of the auxiliary part is provided with a drive assembly corresponding to the snap-fit ​​assembly. The snap-fit ​​assembly is connected to a fishing line, which passes around the drive assembly, and a fishhook is provided at the outer end of the fishing line.

2. The automatic hook-lifting fishing gear according to claim 1, characterized in that, The auxiliary part is a rectangular tube with no top wall. A through hole is provided at the left end of the rectangular tube. The elastic element is a rubber band. The left end of the rubber band passes through the through hole and extends to the outside of the rectangular tube. A sealing block is provided at the left end of the rubber band. The diameter of the sealing block is larger than the diameter of the through hole.

3. The automatic hook-lifting fishing gear according to claim 2, characterized in that, The buckle assembly includes a buckle ring connected to the right end of the rubber band rope and a buckle groove formed on the side wall of the rectangular tube. The right end of the buckle ring is provided with a buckle protrusion corresponding to the buckle groove, and the fishing line is connected to the buckle ring.

4. The automatic hook-lifting fishing gear according to claim 3, characterized in that, The drive assembly includes a horizontal shaft fixedly disposed inside the right end of the rectangular tube, a rotating cylinder rotatably connected to the outside of the horizontal shaft, a lifting rod and a drive rod fixedly connected to the outer wall of the rotating cylinder, the end of the lifting rod away from the rotating cylinder extending to the bottom of the retaining ring, and a support head fixedly disposed at the end of the drive rod away from the rotating cylinder.

5. The automatic hook-lifting fishing gear according to claim 2, characterized in that, The left end of the rubber band is connected to a cord, the left end of the cord is connected to a ground anchor, and the left end of the ground anchor has a pointed tip.