RU2769176C1 - Pike lure - Google Patents

Abstract

FIELD: fishing and fish farming.

SUBSTANCE: spinner is made elongated and oval, has S-shape in cross section. Lateral edges are bent in opposite directions relative to the spinner plane and are made symmetrically relative to its longitudinal axis. Back part of the spinner is made thicker, and the center of gravity is shifted to the back part of the spinner.

EFFECT: invention provides better stabilization of the spinner during the flight during casting and accordingly increase in the distance and accuracy of casting.

1 cl, 5 dwg

Description

The invention relates to amateur and sport fishing, namely to artificial lures, and can be used to catch various types of predatory fish, especially pike.

Numerous artificial lures are known from the existing level of technology, including spinners of a wide variety of designs. Spinners themselves can be divided into three categories: rotating, oscillating and for sheer lure. Each of these categories has both its advantages and disadvantages. So, for example, spinners have a freely suspended petal, which, when the spinner moves in the water column, rotates relatively quickly around the central part of the spinner, thereby creating vibrations that attract fish. But when the wiring stops, the petal of such a spinner stops its rotation, and the spinner simply falls to the bottom. One of the oscillating baubles can be called the widespread Storling baubles. This spinner has quite a decent weight, which favorably affects the casting distance, and a fairly simple design. When moving in the water column, the spinner makes wide sweeping oscillations, the frequency and amplitude of which depend on the speed of the wiring. The fluctuations produced by the lure, both during wiring and when falling, attract predatory fish, especially pike. But as practice has shown, the effectiveness of this spinner is maximum only in early spring and late autumn, when the so-called zhor, spring and autumn, respectively, are clearly manifested in the activity of the pike. In the summer, the work of this spinner is ineffective, because the pike, like other predatory fish, is mostly in an inactive state. The low efficiency of the Shtorling spinner lies in the fact that, due to its relatively large weight, the wiring in the water column is carried out at a considerable speed, and when the wiring stops, the spinner plunges into the depth relatively quickly, which generally negatively affects the number of bites. In addition, the oscillation frequency of this type of oscillating baubles is very low, which is also unattractive for fish. The spinner, which during its movement creates oscillations of a higher frequency and which can be called an analogue, is the Moshkonov spinner (patent RU 2081579 C1). This spinner, by means of a longitudinally rotating spirally curved plate, creates longitudinal oscillations in the water column with a frequency comparable to the frequency of oscillations of the tail fin of a small fish during its movement, which is a food object for predatory fish, therefore such a spinner is more attractive bait for a predator. According to the author, the lure is designed for sheer lure both in summer from a boat and in winter from ice, that is, fluctuations in the water column are created by this lure when moving in a vertical plane.

Known, adopted as the closest analogue, spinner (patent US 1903558 A1, 04/11/1933), made elongated and oval, having an S-shaped cross section. Known baubles are made of sheet material of the same thickness, and the weight of the back of the baubles is increased by increasing the width of the baubles in this place. However, this also increases the area in this place, which leads to the fact that when casting, the lure turns across to the air flow and begins to rotate very quickly around its axis, which reduces the range and accuracy of casting.

EFFECT: creation of a lure design that provides better stabilization during the flight during casting and, accordingly, an increase in the casting distance and accuracy. The proposed lure creates longitudinal oscillations in the water column, attracting fish, and is in the zone of a possible attack of predatory fish for a longer time compared to others, for example, oscillating baubles.

The technical result is achieved by the fact that the spinner is made elongated and oval, has an S-shape in cross section. The side edges are bent in opposite directions relative to the plane of the spinner and are made symmetrically with respect to its longitudinal axis. The back of the spinner is thickened, and the center of gravity is shifted to the back of the spinner.

When the wiring stops, such a spinner begins to fall down. The flow of water coming from below, due to the above design features, flows differently around the right and left half of the lure, thereby creating a torque that causes the lure to rotate around its longitudinal axis, creating longitudinal vibrations in the water column that attract fish. If this process is considered from the point of view of energy conservation, then we can say that the potential energy that the spinner has, located at a certain distance from the bottom, when falling, passes into the kinetic energy of the spinner rotation, which in turn is spent on mixing water, that is, for due to viscous friction, it turns into heat and dissipates in the water, thereby slowing down the fall of the spinner and allowing it to stay in the predator's visibility zone longer, which ultimately increases the number of bites. The back part of the pike lure is thickened to shift the center of gravity to the back of the lure to stabilize it during the flight when casting and, accordingly, increase the range and accuracy of casting. In the back of the spinner, the pike edges are bent in opposite directions relative to its plane and are symmetrical with respect to the longitudinal axis of the spinner, which during wiring, that is, when the spinner moves horizontally in the water column, leads to a deviation of the oncoming flow in the back of the spinner also in opposite directions and thereby creates a torque.

Structurally, the spinner looks like it is shown in Fig. 1, where 1 is the hole in front of the spinner for attaching the main line to the spinner, and 2 is the hole in the back of the spinner for attaching a triple hook to it through the winding ring. On FIG. 2 shows a side view. On FIG. 3 is a sectional view A-A, and FIG. 4 along the section B-B. On FIG. 5 shows a view of the spinner in axonometric projection.

The principle of operation of the pike spinner is as follows. After casting, the lure falls into the water, after choosing the slack of the line, the wiring stops and the lure begins to sink down in the water column. In this case, the flow around the spinner from different sides will be different relative to the longitudinal axis, which leads to the rotation of the spinner around its longitudinal axis when falling in the water column. This rotation creates longitudinal oscillations in the water column that attract predatory fish, and at the same time slows down its fall, which allows the lure to stay in the fish's field of vision for a longer time. Another advantage of the spinner, which appeared during field tests, was that when it falls with rotation in the water column, the spinner does not just fall vertically down, but also goes to the side at an angle of about 45 degrees. This effect allows you to catch areas that are inaccessible to any other type of lure. These can be, for example, fishing points under bushes hanging over the water, snags and other similar places. Another advantage of this lure is that the lure, thanks to the edges bent at the back, works not only in the fall, but also during the wiring, that is, the lure rotates when we carry out the wiring, which is an additional factor for attracting fish.

Thus, the proposed spinner allows you to effectively catch large areas of the reservoir, including those that are inaccessible to other types of spinners, thereby providing an increase in catchability.

Claims (1)

A spinner made elongated and oval, characterized in that it has an S-shape in cross section, the side edges are bent in opposite directions relative to the spinner plane and are made symmetrically about its longitudinal axis, while the back of the spinner is thickened, and the center of gravity is shifted to the back of the spinner.

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