New interpretation of float adjustment method for Taiwan

The floatation of Taiwanese fishing is composed of two parts: "adjustment" and "fishing", which are summarized as "adjustable and sensitive, slow and dull; sensitive to fishing and dull to fish." Among them, "tune" is the basis for "fishing" and is the key. "Sensitivity" and "insensitivity" are simple terms for describing sensitivity, "sensitivity" means high sensitivity, and "dullness" means low sensitivity. Undoubtedly, the core of drifting is sensitivity.

It was noted that the object of implementation of the "tune" was a fishing group, while "fishing" was a fishing group for hanging baits, both of which had different material foundations, but all of them were marked with "sensitive" and "insensitive". The question that arises is whether different material bases can have the same "sensitivity" and "insensitivity"? Also, what is the upper limit of "sensitivity" and what is the lower limit of "dullness"? All should be defined. Otherwise, "sensitivity" and "insensitivity" are irrelevant and seem to extend as they please. Therefore, it is theoretically and practically necessary to clean up the source, correctly understand the objective laws of sensitivity, and overcome the drawbacks of “tune” and “fishing” to make it scientific.

First, the sensitivity of the

The fishing group acts through the bait and the fish. Bait fishing group, that is, the complete system consisting of five elements of line, drift, sinker, hook, and bait, and back loop, is called the fishing line. The sensitivity in fishing refers to the sensitivity of the fishery to fish response, and float is its display element. It goes without saying that the fishing system is the basis of sensitivity and sensitivity is an inherent property of the fishing system. Therefore, the fishing line is the basic starting point for recognizing and discussing sensitivity. This is a major premise and cannot be vague.

The fishing group also has its own sensitivity and affects the sensitivity of the fishing system, but it cannot replace the fishing system. As a whole, the fishing group is a subsystem of the fishing system. The two are the relationship between the part and the whole, and the local and the overall. Bait is the key factor here, and the difference between a fishing group and a fishing line is here. The “sensitivity and dullness” of using the fishing group to determine the sensitivity of the fishing line is a reversal of understanding. It also means that the difference between the fishing group and the fishing line is denied, and the premise is confused.

If we say that the premise of confusion is the confusion in understanding, then building a theory on a basis of confusion will inevitably rely on absolute ideas. That is to say, "sensitivity" and "insensitivity" are generalized, making it an absolute concept independent of fishing. Then the absolute "sensitive" and "dull" are imposed on the fishing group, which in turn is to judge the sensitivity and dullness of the fishing system. The results are all flawed. "The more tune the number of meshes, the more sensitive," which means that the more the number of tails, the more sensitive. "There are many tones and light weights, so they are sensitive", which means that there is no drop in the most sensitive. In fact, fishing is the most sensitive to half-water balance.

Second, the upper and lower limits of sensitivity and the qualitative description of the sensitivity law

1. Floating point of the fishing line. Sensitivity limit

When the fishing system is half-water balanced, the number of floats displayed is called the suspended point of the fishing system and is recorded as a floating point A. It is known that when the water is balanced, the total weight of the water in the fishing line is balanced by the total buoyancy of the water and is in the most sensitive state. Therefore, the floating point A is also called the sensitive limit of the fishing line and is the upper limit of the fishing system sensitivity.

Changes in bait weight affect the upper limit. The float point A corresponds to the initial bait weight. Semi-water is a geometric condition. It means that the length of the water in the fishing system (from the number of floated meshes to the length of the long-brained line) is less than the limit, and the limit is equal to the depth of the fishing point.

2. Pendant floating point lower limit of sensitivity

For the sake of simple description, it is necessary to incorporate the fall into the ring. The system consisting of lines, floats, and sinks is half-water balanced. The number of floats displayed is called the floating point of the sinker, and it is recorded as a floating point B. This point is the minimum condition for the floating of the pendant, which means that the drifting sinks towards the end of the sinker, otherwise it floats.

Put the long water line down so that the sinker will sink to the bottom. At this time, the double-brained lines, hooks, and baits will all sink to the bottom. The fishing line is in the limit state of suspension. The sensitivity corresponding to this is called the slow limit of the fishing system under the pendant condition and is the lower limit of the fishing system sensitivity. From the point of drifting, because the sinker has not yet bottomed out, the lower limit of sensitivity is contained within the drift point B.

3. Qualitative description of sensitivity law

Practice shows that in the pendant fishing method, the closer the fishing target is to the drift point A, the more sensitive it is, and the drift point A is the boundary point; conversely, the farther the fishing point is from the drift point A, the more sluggish it is, and the slow limit is used as the boundary point. (From the point of drifting, point B as the boundary point).

It can be seen that in the pendant fishing method, the AB section on the tail of the drift is the effective range of the sensitivity of the fishing system; the size of this section depends on the sum of the weights of the double hook and the double bait, and has nothing to do with the weight; the drift point in the interval is from A. To B, the sensitivity declines in turn; the sensitivity of each point can be determined, but there are many influencing factors.

Third, empty and ethereal, "tune sensitive, delay dull"

When the fishing group is half-water balanced, the number of floated points is recorded as the floating point C, which is called the floating point or heading of the fishing group. The distance from the drift point C to the drift point A depends on the double bait weight, and the distance from the drift point B depends on the double hook weight.

According to the argument that "tune sensitive, adjust dull and dull", adjusting the four heads is more sensitive than adjusting the three heads. Then, the four heads are turning points from sensitive to dull and should be non-inflexible neutral points. Pushed wide, the dots at the end of the drift are all neutral. But in fact, it's not. The drift point C in the AB segment cannot be a neutral point but has its own sensitivity. For example, hook light bait weight, point C near point B, sensitivity is low, and so on.

The reason for this error is to use "adjustment" as a criterion of sensitivity and to divide "sensitive" and "insensitive". While there are no objective criteria for sighting and arbitrarily chosen based on experience, multiple standards of sensitivity are formed. Multi-standard is actually no standard. The dots at the end of the float have become neutral points. What are the differences between "sensitive" and "dull"? Imagine moving the float point C downwards, which is equivalent to reducing the weight and increasing the gaze. For a given bait weight, the distance between the float point AC and CB remains the same, and the floating point A and the floating point B move downward. This means that increasing the number of eyesight only changes the start and end positions of the range AB, and does not change the effective range and the sensitivity of the fishing system it represents. Conversely, shifting the drift point C will not change the sensitivity of the fishing line.

Through the above discussion of the positive and negative sides, we can draw the conclusion that "tune sensitivity, delay dullness" is a false and unrealistic theory that should be denied.

Fourth, adjust and drift new

"Swift fishing, slow fishing" comes from hands-on experience. With the deepening of people's understanding of the pendant fishing method, "fishing sensitive, slow fishing" appears shallow and hollow. Just imagine, pointing to the AB segment on the tail of the float, gesticulating: Fishing and floating point A is more sensitive than fishing spot B, and fishing point B is more dull than fishing spot A. It is not childish and ridiculous! In this context, the new concept of tune and drift came into being.

"Tune" is for "fishing." Different fishing methods have different tunes. From the pendant fishing method, it is nothing but: 1 fishing float; 2 fishing "on the bait suspension, under the bait sinking bottom"; 3 fishing "double bait sinking." To balance the three fishing methods, you need to master three joint points. The three joint points are: the floating point of the fishery (floating point A), the floating point of the sinker (floating point B), and the floating point of the bait (referred to as the floating point D). The drift point D is defined below.

When the bait's fishing group is half-water balanced, the floating mesh is called the bait floating point. Drift point D is the minimum condition for the suspension of the bait, which means that the drifting tends to point at the bottom of the bait, otherwise it floats.

The differences between the three fishing methods are:

Floating point A is a mark of fishing float. Adjusting the length of the waterline allows for fishing in different water layers.

The AD segment on the tail float is the effective range of the upper bait suspension. To control the fishing line in this area is to catch the “suspended bait and the bottom of the bait.”

The DB segment on the drift tail is the effective range of double bait sinking under suspended conditions. To control the fishing line in this area is to catch the double bait.

This kind of adjustment method based on the sensitivity of the fishing system is referred to as “three-point, three-fishing method”.