JP2019154418A - Smart dual-bearing reel capable of extending long casting distance to extremity - Google Patents

Abstract

To provide a smart dual-bearing reel that enables long casting at maximum tensile stress by reducing line entanglement (line trouble) in the long casting and eliminating a frictional resistance of a spool.SOLUTION: A frictional resistance by the rotation of a spool is eliminated in a dual-bearing reel, and thereby a long casting distance is extended dramatically. As the method, a line-releasing speed is measured with speedometers 1, 2, 3, a delivery motor 5 for assisting a rotation of the spool so as to synchronize with the speed is arranged, and thereby the resistance by the weight of the spool is not applied at all. Also, the timing for releasing a line from the reel is taken by detecting the maximum stress with a tensile force meter 9. The line is released without generating loss of long casting power. The maximum speed for shaking off a rod is detected with an accelerometer 10 for measuring the speed of moving the rod. The line is released at an optimal angle where the launching angle of the rod slightly exceeds a vertex by an angle speedometer 11. Accordingly, a mechanism of obtaining the maximum long casting power is provided by compound judgment using the artificial intelligence.SELECTED DRAWING: Figure 1

Description

The present invention is an electric reel for fishing, which is different from an electric reel whose main purpose is to wind up fish used in the past, and is a line feed electric motor of a new idea devised to maximize the long throw distance. It is an invention relating to a dual-bearing reel.

Currently, there are spinning reels and dual-bearing reels for fishing reels, and spinning reels are mainly advantageous for long throwing. This is because the spinning reel has a spool-free structure in which no load is applied to the line at the time of long throwing, and the loss of the long throwing distance is less than that of a dual-bearing reel having frictional resistance due to rotation of the spool.

However, the spinning reel has a fatal defect that the line is always twisted structurally and causes yarn entanglement (line trouble). This is the same even if the line type such as nylon line, fluorocarbon line, PE line is changed, and cannot be avoided structurally. This is because the spinning reel has a structure that converts from vertical rotation to horizontal rotation during line feeding and winding, and the same principle as spinning, in which the yarn is always twisted.

In the fishing reel, prior art documents have been found that can be used to electrically brake and report the landing of a device even in the dark. However, the problems and means that the invention solves are the purpose of preventing the thread breakage and the reel and the kite from being taken away by the purpose of giving the flying distance to the reel as described above and the loosening of the drag according to the fish hit. It is fundamentally different. In the prior art documents, in contrast to the fact that the line is braked at the time of landing, the present invention generally feeds the line and synchronizes the reeling speed and the reel (spool) rotational speed. It also deals with troubles. This is not the braking but the opposite idea of giving tuning and relaxation to the main functions of the reel.

JP 2014-82938 A

Reduces thread entanglement (line trouble) during long throwing, eliminates frictional resistance of the spool, enables long throwing with maximum tensile stress using various sensors, and has a drag response function for large fish Providing smart dual-bearing reels.

As described above, the spinning reel has a fatal defect that the line is always twisted structurally and causes yarn entanglement (line trouble). Then, if the electric reel which does not apply a line sending load at all with a double-bearing reel is developed, it is the gist of the invention that it becomes possible for the angler to greatly extend the flight distance at the time of casting.

Currently, the timing of releasing a line from the reel depends on human senses and technology, so that advanced players can cast longer, regardless of their ability. On the other hand, beginners have a high hurdle to throwing to the limit even if they have arm strength, and they can throw to the limit of arm strength only by their superior skill (technique) and experience value (career) etc. Can be reflected.

In order to allow anyone to cast a long distance to the limit of the person's arm strength, it is possible to draw the maximum flight distance by leaving the timing of releasing the line to various sensors. Specifically, the tensile force meter / tension sensor 9 detects the maximum stress point 17 of the tensile stress and releases (releases) the line at that point, thereby releasing the line without causing a loss of long throwing force. be able to. Then, the accelerometer / motion sensor 10 that measures the speed at which the kite moves detects the maximum speed point 18 of acceleration that the kite shakes, and the angular angle / gyro sensor 11 makes the optimal angle at which the kite radiation angle slightly exceeds the apex. Lines are released (released) at point 19, and these are combinedly determined by an artificial intelligence computer (AI) so that the long throwing force is maximized to obtain the maximum flight distance. [Fig. 1] [Fig. 2] [Fig. 3] [Fig. 4] [Fig.

As a mechanism that does not apply the line feed load (friction resistance) after casting to the smart double-bearing reel, the line discharge speed is measured with a combination of speedometer / speed sensor 7 and tachometer / rotational speed sensor 8. The information is sent to the motor 5 for assisting the rotation of the spool, which is arranged so as to be synchronized with the speed, so that the line discharge speed and the spool rotation speed coincide with each other so that no resistance due to the weight of the spool is applied. To design. This eliminates the resistance that causes the long throwing force to decelerate, and at the same time, the yarn can be entangled without stopping the rotation of the spool due to rapid deceleration at the time of landing. The reason for this is that the rotation speed of the spool and the discharge speed of the line are perfectly synchronized with the speed change before and after the landing, so the line is slowly fed out without braking and causes backlash. Can be eliminated. See [Fig. 1] and [Fig. 2].

Conversely, if the line feed is completely stopped at the time of landing, the distance to the arrival point will be determined quickly, and the depth 20 will be pushed back as the device sinks. If this is done, the line will be sent out even after landing, and loss of flight distance can be avoided. See [Figure 6]

In addition, this smart double-bearing reel is not a large motor for winding to interact with a conventional large fish, but a small small motor specially designed for line feeding and a small motor used in smartphones. A lithium battery can be substituted. That is, a powerful large motor with torque and a heavy battery connected to a power cable, such as a conventional electric fishing reel, are not required, and the reel can be handled more flexibly. And the reel user can enjoy the original enjoyment of fishing without worrying about the excessive weight of the reel, the position of the battery, the handling of the power cable, etc. is there.

This smart double-bearing reel line speedometer / speed sensor 7 and tensile force meter / tension sensor 9 for measuring tensile stress are used to make a sudden rush with a large fish, and the reel is turned into a rod. It also prevents being dragged into the water or being cut into lines by large fish. See [Fig. 7] and [Fig. 8].

For example, the speedometer / speed sensor 7 and tensile force can be applied to fish species such as blue fish that run suddenly even when the fishing rod (rod) is not held in the hand, such as a standing rod. By detecting the attack with the meter / tension sensor 9, releasing the drag with the emergency auto-drag OFF function 22 if necessary, and informing the angler with the alarm / warning sound / warning lamp function 23, etc. (Rod) avoids being taken away by fish. See [Fig.7]

In addition, in order to prevent the fish from suddenly rampaging during the exchange with large fishes and rushing and breaking the line (line break), the drag release point is set within the range that does not exceed the line strength limit. The emergency auto-drag OFF function 22 and the emergency auto-drag LOOSEN function 24 that loosen the drag tightening temporarily can always fight the target fish within the limit of the line strength. See [Figure 8]

According to the present invention, conventionally, in order to obtain a flying distance, a spinning reel that is likely to cause a yarn entanglement (line trouble) is used, or at the expense of the flying distance, the yarn entanglement (line trouble) can be reduced as much as possible. We have been forced to choose the ultimate choice of dual-bearing reels, but we are freed from such a situation.

At present, many anglers use a spinning reel for throwing fishing and long throwing basket fishing. However, even in that case, thin and strong PE lines that can increase the amount of spools tend to be avoided. There is. This is because the PE line has a characteristic that the yarn is very light and soft, so that even if the tension is weakened, a yarn entanglement (line trouble) occurs immediately.

In the case of fluorocarbon lines and nylon lines, on the other hand, the thread is too hard, and it is a circular thread kite that matches the shape of the spool. There is a possibility of thread entanglement (line trouble). In order to avoid this, it is necessary to use a super soft-processed nylon line, even at the expense of some strength, and regularly use a nylon line with low durability due to sunlight (ultraviolet rays) and seawater (salt water). Therefore, the economic burden is large. Moreover, even if a nylon line is used, in fishing that repeats casting, such as lure fishing, throwing fishing, and long throwing basket fishing, the twist gradually increases, and it is not possible to completely prevent thread entanglement (line trouble).

So, if you use a double-bearing reel (such as a bait casting reel), it will not be the case that the yarn entanglement (line trouble) will disappear. This is because a mechanism such as a backlash occurs in which the mechanism or lure thrown into the thread does not stop due to rapid deceleration during landing. So, except for lure fishing bait reels that require fine control of the lure, in reality, dual-bearing reels are rarely used. Moreover, the current situation is that it is rarely used for throwing fishing that requires long throwing, because the flying distance does not increase due to loss due to the resistance of the spool. Therefore, even though it is a double-bearing reel, it can be said that the usefulness of a smart double-bearing reel that is hardly loaded during a long throw like a spinning reel is very high.

The effect of the smart double-bearing reel is not only to prevent line troubles, but also to the angler's summing (a technology that lightly puts the thumb on the spool to reduce the rotation speed of the spool as the speed at which the thread comes out decreases) Regardless of the proficiency level (technique) or experience level (career) of a person, various sensors and artificial intelligence computers (AI) can be used for long-throwing power by simply swinging a rod with a lot of strength with the person's strength Even beginners can make long-distance casting relatively easily because it measures the optimal line release timing with little loss. This can level out the technical differences with smart dual-bearing reels and increase the opportunities for many to enjoy fishing. See [Fig. 1] and [Fig. 2].

Another advantage is that it is possible to avoid the smart double-bearing reel being stolen together with the fishing rod (rod) when a large fish is caught while the drag is on. Because when you enjoy fishing, you don't always focus on the fishing rod (rod), but take a break and eat and drink. There is always a timing for placing a device such as preparing a device or feeding another fishing rod. In such a case, if you hang a big game and get robbed of the rod, the economic loss and the feeling of losing the big game are very big. Even if this can be avoided, this smart double-bearing reel provides great value. See [Fig.7]

Also, if a large fish is caught when the drag is tightened too much, there is a situation where the drag cannot be adjusted due to sudden exchanges with the fish. Even in such a case, this smart double-bearing reel automatically loosens the drag and temporarily cancels the drag, greatly reducing thread breaks (line breaks) and greatly improving the possibility of anglers to pick up large fish. To do. This is a game with a large fish, and you can tighten the drag too much to get the size of the fish you missed. See [Figure 8]

The perspective view of the smart double bearing reel which employ | adopted one Embodiment of this invention Sectional drawing which shows the 2nd speedometer of a front-end | tip part, and the structure inside a reel main body Tensile stress graph showing the peak of tensile stress Acceleration graph showing peak acceleration Explanatory drawing showing the optimum angle of casting Explanatory diagram showing the effect of line return reduction after landing Explanatory drawing which shows the effect of the emergency auto drag OFF function at the time of standing Explanatory drawing showing the effect of emergency auto drag LOOSEN function when fish suddenly rush

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. The present invention can be variously modified and can have various forms, and implementation examples (or examples) will be described in detail herein. However, this should not be construed as limiting the invention to the particular forms disclosed, but should be understood to include all modifications, equivalents or alternatives falling within the spirit and scope of the invention.

The terminology used herein is for the purpose of describing particular embodiments (or examples) only, and is not intended to be limiting of the invention. The singular form includes the plural form unless the context clearly indicates otherwise. In this application, terms such as ... including ... or ... are features, numbers, steps, operations, components, components, or combinations thereof described in the specification. Does not pre-exclude the possibility of the presence or addition of one or more other features, numbers, steps, actions, components, parts or combinations thereof, etc. It must be understood.

Unless otherwise defined, all terms used herein, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. have. Predefined terms that are commonly used must be construed to have a meaning consistent with the meaning that they have in the context of the related art, and have the theoretical meaning unless explicitly defined herein. Or not overly formalized.

During casting, the line discharge speed is measured with the first line speedometer 1 that measures the line speed of the hand guide section or the second line speedometer 2 that measures the line speed of the tip guide section, and the line speed of the level winder section. The third line speedometer 3 that measures the line speed or the spool line speedometer 4 that measures the line speed of the spool section calculates the line discharge speed for synchronization and matches the speed measured by the delivery motor 5 Send out the line. By doing so, the resistance due to the weight of the spool at the time of casting is reduced to zero, and there is no loss of flight distance in both bearing reels. At the same time, it can also reduce the occurrence of yarn entanglement (line trouble) that tends to occur in spinning reels. * See speedometer / speed sensor 7, rotation speedometer / rotational speed sensor 8 [Fig. 1]

The first line speedometer 1 and the second line speedometer 2 that measure the discharge speed of the line do not need to be installed at the same time. If either one can measure the speed at which the line is sent out, the information is sent to the reel and the synchronized speed. Can be derived. The first line speedometer 1 uses an optical speed sensor (laser, infrared etc) or the like, reads the marks 6 attached to the line at equal intervals, and accurately measures the line discharge speed. The second line speed meter 2 measures the line discharge speed with the optical speed sensor 12 or the roller-type rotational speed sensor 13 of FIG. 2 and sends the information to the reel body with the radio wave transmitter 16 or the like. Share. See [Fig. 1] and [Fig. 2].

It is not necessary to install the third line speedometer 3 and the spool part line speedometer 4 for measuring the line discharge speed for synchronization at the same time. Thus, the line discharge speed and the rotation speed of the delivery motor 5 can be synchronized. See [Figure 1]

The second line speed meter 2 that measures the line speed of the distal end guide portion selects a thing that can be made compact from sensors such as the optical speed sensor 12 and the roller-type rotational speed sensor 13 and devices equivalent thereto. See [Figure 2]

As for the timing of line release, the tensile force meter / tension sensor 9 detects the maximum stress point 17 of the tensile stress and releases the line without causing a loss of long throwing force. Then, the accelerometer / motion sensor 10 that measures the speed at which the kite moves detects the maximum speed point 18 of acceleration that the kite shakes, and the angular angle / gyro sensor 11 makes the optimal angle at which the kite radiation angle slightly exceeds the apex. Lines are released (released) at point 19, and they are determined in a complex manner by the artificial intelligence computer (AI) so that the long throwing force is maximized, and the maximum flight distance is obtained. [Fig. 1] [Fig. 2] [Fig. 3] [Fig. 4] [Fig.

By not stopping the delivery even after the line has landed, it is possible to avoid an impairment of the length 20 at which the line is pushed back. See [Figure 6]

Even if you do not hold a fishing rod (rod) in your hand, you can catch the fish with the speedometer / speed sensor 7 or tension sensor / tension sensor 9・ Equipped with emergency drag OFF function 22 that turns off (releases) drag if necessary, and informs the angler with an alarm / warning sound, warning lamp function 23, etc. Avoid being left behind. See [Fig.7]

In addition, in order to prevent the fish from suddenly ramping up in the course of winding up and rushing and breaking the yarn (line break) during the exchange with large fish, set the drag release point within the range that does not exceed the line strength limit. With the emergency auto-drag OFF function 22 or the emergency auto-drag LOOSEN function 24 that loosens the drag tightening temporarily, it is always possible to fight the target fish within the limit of the line strength. See [Figure 8]

１７最大応力ポイント
１８最高速度ポイント
１９最適角度ポイント
２０ラインが押し戻される長さ
２１通常時ドラグＯＮ機能
２２緊急時オートドラグＯＦＦ機能
２３アラーム／警告音、警告ランプ機能
２４緊急時オートドラグＬＯＯＳＥＮ機能1 First line speedometer (measures the line speed of the hand guide)
2 Second line speedometer (measures the line speed of the tip guide)
3 Third line speedometer (measures the line speed of the level winder)
4 Spool line speed meter (measures the spool speed)
5 Sending motor 6 Marks attached to the line at equal intervals (for sensor reading)
7 Speedometer / Speed sensor (example)
8 tachometer / rotational speed sensor (example)
9 Tensile force meter / tension sensor (example)
10 accelerometer / motion sensor (example)
11 angular velocity meter / gyro sensor (example)
12 optical speed sensors (eg laser, infrared etc)
13-roller rotation speed sensor 14 spool 15 lines

17 Maximum stress point 18 Maximum speed point 19 Optimum angle point 20 Length to which line is pushed back 21 Normal drag ON function 22 Emergency auto drag OFF function 23 Alarm / warning sound, warning lamp function 24 Emergency auto drag LOOSEN function

Claims (7)

A smart double-bearing reel that installs various sensors on the reel and loosens or synchronizes the reels to eliminate the spool's frictional resistance and extend the flight distance, and enhances drag performance. A function that can detect the maximum stress point 17 of the tensile stress with the tensile force meter / tension sensor 9 and release the line at this point so that the line can be released without causing a loss of long throwing force. Smart double-bearing reel with Smart double-bearing with the function to detect the maximum speed point 18 of the acceleration that the swaying of the heel is detected by the accelerometer / motion sensor 10 that measures the speed at which the heel moves, and to release the line when the speed reaches the top reel. The angular velocity meter / gyro sensor 11 releases (releases) a line so as to draw the most efficient trajectory at an optimal angle point 19 where the radiation angle of the kite slightly exceeds the apex, and each of claims 2 and 3 A smart dual-bearing reel that has a mechanism that obtains the maximum flight distance by making multiple judgments so that the long throwing force is maximized by the artificial intelligence computer (AI) together with the information of the above. As a mechanism that does not apply the line feed load (friction resistance) after casting, the line discharge speed is measured with a combination of speedometer / speed sensor 7 and tachometer / rotational speed sensor 8, etc., and synchronized with that speed. Smart dual-bearing reel designed to send information to the arranged motor 5 for assisting the rotation of the spool, so that the line discharge speed matches the spool rotation speed and no resistance is applied to the weight of the spool. . Even if you don't have a fishing rod (rod) in your hand, you can catch the fish with a speedometer / speed sensor 7 or tension force meter / tension sensor 9 against fish species such as blue fish that suddenly run. Detecting and releasing the drag with the emergency auto drag OFF function 22 when necessary, and informing the angler with an alarm / warning sound / warning lamp function 23, etc., the fishing rod (rod) is taken away by the fish Smart double-bearing reel designed to avoid this. In order to prevent the fish from suddenly ramping up in the middle of winding up with a large fish and rushing to break the line (line break), set the drag release point within the range where the line strength is not exceeded. Smart double-bearing designed to be able to fight the target fish at the limit of the line strength at all times with the emergency auto-drag OFF function 22 and the emergency auto-drag LOOSEN function 24 to temporarily loosen the drag. reel.

Images