The design principle of high-speed octagonal rings mainly revolves around three core goals: releasing torque, reducing entanglement, and dispersing tension. Through a unique "8" - shaped structure and physical mechanism, high fishing efficiency is achieved. The following is a breakdown of the specific design principles:
1. Structural foundation: Dual ring separation and center of gravity balance
Double ring structure in the shape of "8"
The high-speed eight character ring consists of two closed or openable circular rings, resembling the number "8". The main line and sub lines are fixed in independent rings, which avoids direct winding of the wire group and ensures the independent force of the two wire segments. For example, when using PE wire as the main line, pairing it with carbon wire sub lines can achieve material differences in the line group connection through an eight character ring, breaking through the limitation of a single material.
Center of gravity balance design
In fluid mechanics, the double ring structure of an octagonal ring maintains stability, reduces water resistance, and enhances sensitivity during the throwing process through the principle of center of gravity balance. This design not only disperses the pulling force, but also reduces the probability of breakage when fish struggle, making it an indispensable small component in competitive fishing.
2. Core function: Rotate to release torque
360 ° free rotation mechanism
The core advantage of high-speed octagonal rings lies in their rotational ability. When the fish is struggling or baiting, the sub line end can rotate 360 ° without resistance through the eight shaped ring, effectively releasing the torque brought by water flow and throwing. Experimental data shows that the installation of a rotating bearing with an eight shaped ring can reduce the probability of winding the line group by 83%, especially in the lure fishing method, where the high-speed rotating bait avoids the accumulation of rotational torque by releasing force through rotation.
Material and process optimization
Surface smoothness: The higher the glossiness and hardness of the metal surface, the lower the friction coefficient, and the faster the rotation speed. The high-quality high-speed octagonal ring is made of high carbon steel or aviation aluminum material, and the surface is finely polished and anodized to ensure smooth rotation.
Precision bearing structure: Some high-end models are equipped with precision bearings to further reduce rotational resistance and achieve almost frictionless free rotation.
3. Performance enhancement: dispersing tension and buffering impact
Tensile dispersion mechanism
The metal material and volume design of the octagonal ring form a natural buffer zone. At the moment of catching fish, the connecting part absorbs about 15% -20% of the impact force through deformation, and forms a three-level buffering system (fishing line - octagonal ring - fishing rod) with the elasticity of the line group. This buffering feature is particularly critical when competing for big fish, as it can effectively prevent the line group from instantly overloading and breaking.
Tensile strength enhancement
The high-speed eight character ring improves overall tensile strength by optimizing material ratio and structural design. For example, the eight character ring made of high carbon alloy material can have a breaking force of over 30 kilograms, meeting the needs of catching large objects such as carp and grass carp.
4. Scenario adaptation: differentiated requirement design
Competitive fishing scene
Competitive fishing requires high throwing frequency and sensitivity. The high-speed eight shaped ring significantly improves fishing efficiency by reducing sub line entanglement and increasing rotation speed. For example, after using the high-speed splay ring, when the angler rubs the bait or pulls the bait, the two sub threads will be easily separated, reducing the probability of intertwining like Fried Dough Twists, and in a disguised way increasing the frequency of baiting and casting.
Deep water and mixed aquaculture areas
In deep water or areas with uneven individual fish, high-speed eight shaped rings can be used with thin fishing lines to avoid breakage by rotating and releasing force. For example, the Japanese unloading ring adds a long, high-strength rubber band to the splayed ring, which has strong tensile property and anti-aging ability, and is suitable for fishing fish with large individual changes.
Luya and Sea Fishing Scene
In the lure fishing method, the high-speed rotation of the bait can easily generate a spinning torque, causing the line to entangle. The high-speed eight shaped ring rotates freely 360 °, effectively releasing torque and protecting equipment safety. When fishing at sea, its high tensile strength and corrosion resistance (such as titanium alloy material) can withstand the struggle of large fish and seawater erosion.