阅读说明：本技术 一种安装在鱼竿上的由断路器控制的自动钓鱼收线装置 (Automatic fishing take-up device arranged on fishing rod and controlled by circuit breaker ) 是由 韩锐 于 2021-01-07 设计创作，主要内容包括：本发明公开了一种安装在鱼竿上的由断路器控制的自动钓鱼收线装置,包括放线机壳,所述放线机壳内部设有设有连通所述放线机壳前后端面的锥形孔,该装置结构简单,操作便捷,克服人工收线不及时从而使鱼跑掉或者当有大鱼上钩时放线不及时从而使鱼线或者鱼竿断掉从而使鱼跑掉的问题,该装置在使用时,可以通过将鱼线放出后当有鱼上钩时,当鱼线伸长一定长度后自动收线,从而避免鱼上钩收线不及时从而使鱼跑掉的情况,当收线过程中鱼的力气较大从而无法继续收线时,则自动停止收线,从而防止在收线过程中鱼力气过大从而拉断鱼线或者鱼竿跑掉的现象,当鱼带动鱼线停止运动时则自动进行收线直到将鱼从水中拉出。(The invention discloses an automatic fishing line-winding device arranged on a fishing rod and controlled by a circuit breaker, which comprises a line-releasing casing, wherein a conical hole communicated with the front end surface and the rear end surface of the line-releasing casing is arranged in the line-releasing casing, the device has simple structure and convenient operation, overcomes the problem that the fish runs off due to untimely manual line collection or the problem that the fish line or the fishing rod breaks off due to untimely line releasing when a big fish is hooked, when the device is used, when a fish catches on the hook after the fish line is released, the fish line can be automatically taken up after being extended for a certain length, thereby avoiding the situation that the fish runs off due to untimely fish hooking and line taking-up, automatically stopping line taking-up when the fish is too strong to continue line taking-up in the line taking-up process, thereby prevent thereby receive line in the too big phenomenon that breaks the fish tape or the fishing rod runs off of line in-process fish strength, then receive line automatically when the fish drives the fish tape stop motion and pull out the fish from the aquatic.)

1. The utility model provides an install automatic fishing take-up by circuit breaker control on fishing rod, includes the unwrapping wire casing, its characterized in that: the fishing rod comprises a paying-off machine shell, wherein a conical hole communicated with the front end face and the rear end face of the paying-off machine shell is formed in the paying-off machine shell, a fishing rod is connected in the conical hole in a sliding manner, a threading ring is fixedly connected to the front end of the fishing rod, a threading hole communicated with the front end face and the rear end face of the threading ring is formed in the threading ring, a circuit cavity is formed in the paying-off machine shell, a circuit breaking cavity is communicated with the left cavity wall of the circuit cavity, a take-up cavity is formed in the lower side of the circuit breaking cavity, a circuit mechanism communicated with a circuit of a device is arranged in the circuit breaking cavity, a circuit breaking mechanism of a circuit in an automatic cutting device is arranged in the take-up cavity, a take-up mechanism capable of automatically taking up and taking up the fishing line is arranged in the take-up cavity, the take-up mechanism comprises, the left side gear right side still is equipped with and turns to the ring gear, turn to the inside intercommunication that still is equipped with of ring gear turn to the ring gear of terminal surface about the ring gear, the right side gear right-hand member still stretches into in the ring gear, it is close to still to be equipped with the opening on the ring gear chamber wall the tooth piece groove of ring gear center direction, tooth piece inslot still sliding connection has the tooth piece, the tooth piece with keep away from fixedly connected with tooth piece spring between the chamber wall of ring gear center direction, the spool left end still runs through receive line chamber left side chamber wall and stretch out the unwrapping wire casing is outside, the spool left end is located unwrapping wire casing outside portion is fixedly connected with reel still, fixed winding has the fish tape on the reel, the fish tape other end passes the through wires hole just is fixed with fishhook and bait.

2. An automatic fishing line take-up device installed on a fishing rod controlled by a circuit breaker according to claim 1, wherein: the winding mechanism is characterized in that a driven shaft is also rotatably connected to the left cavity wall and the right cavity wall of the winding cavity, a driven gear is also connected to the driven shaft through a spline, a left cavity with a left opening is further arranged at the left end of the driven gear, a left slide block is slidably connected in the left cavity, a left spring is fixedly connected between the left end of the left slide block and the left cavity wall of the winding cavity, a unwinding stay cord is further fixedly connected at the left end of the left slide block, a driven toothed plate is further slidably connected to the lower cavity wall of the winding cavity, a driven spring is fixedly connected between the rear end of the driven toothed plate and the rear cavity wall of the winding cavity, a trigger is further arranged on the lower cavity wall of the winding cavity, an initial groove with a forward opening is further arranged on the rear cavity wall of the winding cavity, an initial slide block is slidably connected in the initial groove, an initial spring is fixedly connected between, the wire winding device is characterized in that a power shaft is further rotatably connected to the right cavity wall of the wire winding cavity, a power gear is connected to the power shaft through a spline, a right annular cavity with a rightward opening is further formed in the right end of the power gear, a right sliding block is slidably connected to the right annular cavity, a right spring is fixedly connected between the right sliding block right end and the right cavity wall of the wire winding cavity, a right pull rope is further fixedly connected to the right sliding block right end, a motor is further dynamically connected to the right end of the power shaft, a positive-level fixedly connected with positive wire of the motor, and a negative-electrode fixedly connected with.

3. An automatic fishing line take-up device installed on a fishing rod controlled by a circuit breaker according to claim 1, wherein: the circuit mechanism comprises a coil cavity arranged on the upper side of the circuit cavity, a coil shaft is fixedly connected on the left cavity wall and the right cavity wall of the coil cavity, a coil wheel is fixedly connected on the coil shaft, the left end of the coil shaft penetrates through the left cavity wall of the coil cavity and extends into the circuit breaking cavity, the part of the left end of the coil shaft, which is positioned in the circuit breaking cavity, is also fixedly connected with an upper metal plate, the right end of the positive wire penetrates through the lower cavity wall of the circuit cavity and the right cavity wall of the coil cavity and is wound on the coil wheel, the right end of the positive wire penetrates through the left cavity wall of the coil cavity and is fixedly connected with the right end of the upper metal plate, a magnetic suction push rod is also slidably connected on the left cavity wall of the circuit cavity, a magnetic suction block is fixedly connected on the right end of the magnetic suction push rod, a magnet is also arranged in the magnetic suction block, the left end of the magnetic attraction push rod penetrates through the left cavity wall of the circuit cavity and extends into the circuit breaking cavity.

4. An automatic fishing line take-up device installed on a fishing rod controlled by a circuit breaker according to claim 1, wherein: the circuit breaking mechanism comprises a heat conducting plate fixedly connected to the left cavity wall of the circuit breaking cavity, the right end of the heat conducting plate extends into the circuit cavity, a lower metal plate is further fixed on the right cavity wall of the circuit breaking cavity, the right end of a negative lead penetrates through the lower cavity wall of the circuit breaking cavity and is wound on the heat conducting plate, the right end of the negative lead is further fixedly connected to the lower end of the lower metal plate, a metal sheet is further vertically and fixedly connected to the heat conducting plate, a rotating rod is further rotatably connected to the front cavity wall and the rear cavity wall of the circuit breaking cavity, a metal shifting piece is fixedly connected to the rotating rod, a rotating torsion spring is fixedly connected between the metal shifting piece and the cavity wall of the circuit breaking cavity, the upper end of the metal shifting piece is attached to the upper end of the metal sheet, the lower end of the metal shifting piece is attached to the upper metal, the right cavity wall of the open circuit cavity is also provided with a rotating groove with a leftward opening, the upper cavity wall of the rotating groove is also provided with a locking groove with a downward opening, the locking groove is internally and slidably connected with a locking slide block, a locking spring is fixedly connected between the upper end of the locking slide block and the upper cavity wall of the locking groove, the rear end of the initial pull rope penetrates through the rear cavity wall of the take-up cavity and the upper cavity wall of the locking groove and is fixedly connected with the upper end of the locking slide block, the right cavity wall of the rotating groove is provided with a circuit breaking groove with a leftward opening in an inclined plane cutting manner, the circuit breaking groove is internally and slidably connected with a circuit breaking slide block, a circuit breaking spring is fixedly connected between the right end of the circuit breaking slide block and the rear cavity wall of the circuit breaking groove, the right end of the right pull rope penetrates through, the paying-off device is characterized in that a paying-off sliding block is connected in the paying-off groove in a sliding mode, a paying-off spring is fixedly connected between the right end of the paying-off sliding block and the right cavity wall of the paying-off groove, and the left end of the paying-off pulling rope penetrates through the left cavity wall of the taking-up cavity and the right cavity wall of the paying-off groove and is fixedly connected to the rear end.

5. An automatic fishing line take-up device installed on a fishing rod controlled by a circuit breaker according to claim 1, wherein: the heat-conducting plate has the heat conductivity, the sheetmetal is heated then and is crooked right, under the initial condition, the trigger is located driven pinion rack the place ahead, initial spring with initial stay cord all is in compression state.

Technical Field

The invention relates to the field of circuit breakers, in particular to an automatic fishing line-winding device which is arranged on a fishing rod and is controlled by a circuit breaker.

Background

The circuit breaker is used for automatically cutting off a circuit when the circuit has larger current or has electric leakage phenomenon, thereby realizing the protection of the circuit and being used on a motor to prevent the overload of the motor.

At the present stage, a common fishing rod is manually wound up when a fish hooks up, so that the fish can be dropped out frequently due to untimely winding up, or the problem that the fish can be dropped out due to untimely unwinding when a big fish hooks up is solved.

Disclosure of Invention

The invention aims to solve the technical problem of providing an automatic fishing line-winding device which is arranged on a fishing rod and is controlled by a circuit breaker, and the automatic fishing line-winding device overcomes the problems.

The invention relates to an automatic fishing take-up device which is arranged on a fishing rod and controlled by a circuit breaker, comprising a line releasing shell, wherein the line releasing shell is internally provided with a conical hole communicated with the front end surface and the rear end surface of the line releasing shell, the conical hole is connected with the fishing rod in a sliding way, the front end of the fishing rod is also fixedly connected with a threading ring, the threading ring is internally provided with a threading hole communicated with the front end surface and the rear end surface of the threading ring, the line releasing shell is internally provided with a circuit cavity, the left cavity wall of the circuit cavity is communicated with a circuit breaking cavity, the lower side of the circuit breaking cavity is also provided with a take-up cavity communicated with a device circuit, the circuit breaking cavity is internally provided with a circuit breaking mechanism for automatically cutting off a circuit in the device, the take-up cavity is internally provided with a take-up mechanism for automatically releasing and releasing a fishing line, the, the right end of the left gear is also fixedly connected with a right gear which is also fixedly connected on the winding shaft, the right side of the left gear is also provided with a steering gear ring, the inside of the steering gear ring is also provided with a gear ring communicated with the left end surface and the right end surface of the steering gear ring, the right end of the right gear also extends into the gear ring, a tooth block groove with an opening close to the central direction of the gear ring is also arranged on the wall of the gear ring cavity, a tooth block is also connected in the tooth block groove in a sliding way, a tooth block spring is fixedly connected between the tooth block and the cavity wall far away from the center direction of the gear ring, the left end of the winding shaft also penetrates through the left cavity wall of the wire collecting cavity and extends out of the wire releasing machine shell, the spool left end is located the outside part of unwrapping wire casing is fixedly connected with reel still, the fixed winding has the fish tape on the reel, the fish tape other end passes the through wires hole just is fixed with fishhook and bait.

Further, a driven shaft is rotatably connected to the left cavity wall and the right cavity wall of the take-up cavity, a driven gear is further connected to the driven shaft through a spline, a left cavity with a leftward opening is further arranged at the left end of the driven gear, a left slider is slidably connected to the left cavity wall, a left spring is fixedly connected between the left slider left end and the take-up cavity left cavity wall, a pay-off pull rope is further fixedly connected to the left slider left end, a driven toothed plate is further slidably connected to the take-up cavity lower cavity wall, a driven spring is fixedly connected between the rear end of the driven toothed plate and the take-up cavity rear cavity wall, a trigger is further arranged on the take-up cavity lower cavity wall, an initial groove with a forward opening is further arranged on the take-up cavity rear cavity wall, an initial slider is slidably connected to the initial groove, and an initial spring is fixedly connected between the rear, the improved winding device is characterized in that an initial stay cord is fixedly connected to the upper end of the initial sliding block, a power shaft is rotatably connected to the right wall of the winding cavity, a power gear is connected to the power shaft through a spline, a right annular cavity with a right opening is further formed in the right end of the power gear, a right sliding block is slidably connected to the right annular cavity, a right spring is fixedly connected between the right end of the right sliding block and the right wall of the winding cavity, a right stay cord is fixedly connected to the right end of the right sliding block, a motor is further dynamically connected to the right end of the power shaft, a positive lead wire is fixedly connected to the positive pole of the motor, and.

Further, the circuit mechanism comprises a coil cavity arranged on the upper side of the circuit cavity, a coil shaft is fixedly connected to the left cavity wall and the right cavity wall of the coil cavity, a coil wheel is fixedly connected to the coil shaft, the left end of the coil shaft penetrates through the left cavity wall of the coil cavity and extends into the circuit breaking cavity, an upper metal plate is fixedly connected to the part, located in the circuit breaking cavity, of the left end of the coil shaft, a positive wire right end penetrates through the lower cavity wall of the circuit cavity and the right cavity wall of the coil cavity and is wound on the coil wheel, the right end of the positive wire penetrates through the left cavity wall of the coil cavity and is fixedly connected to the right end of the upper metal plate, a magnetic suction push rod is slidably connected to the right end of the left cavity wall of the circuit cavity, a magnetic suction block is fixedly connected to the magnetic suction push rod, a magnet is arranged in the magnetic suction block, and a magnetic suction spring block is fixedly connected, the left end of the magnetic attraction push rod penetrates through the left cavity wall of the circuit cavity and extends into the circuit breaking cavity.

Furthermore, the circuit breaking mechanism comprises a heat conducting plate fixedly connected on the left cavity wall of the circuit breaking cavity, the right end of the heat conducting plate extends into the circuit cavity, a lower metal plate is fixed on the right cavity wall of the circuit breaking cavity, the right end of the negative lead penetrates through the lower cavity wall of the breaking cavity and is wound on the heat conducting plate, the right end of the negative lead is also fixedly connected with the lower end of the lower metal plate, the heat conducting plate is also vertically and fixedly connected with a metal sheet, the front cavity wall and the rear cavity wall of the circuit breaking cavity are also rotatably connected with a rotating rod, a metal shifting sheet is fixedly connected on the rotating rod, a rotating torsion spring is fixedly connected between the metal shifting sheet and the wall of the circuit breaking cavity, the upper end of the metal shifting piece is attached to the upper end of the metal sheet, the lower end of the metal shifting piece is attached to the upper metal plate and the lower metal plate, and the lower end of the metal shifting piece is attached to the left end of the magnetic suction push rod. The right cavity wall of the open circuit cavity is also provided with a rotating groove with a leftward opening, the upper cavity wall of the rotating groove is also provided with a locking groove with a downward opening, the locking groove is internally and slidably connected with a locking slide block, a locking spring is fixedly connected between the upper end of the locking slide block and the upper cavity wall of the locking groove, the rear end of the initial pull rope penetrates through the rear cavity wall of the take-up cavity and the upper cavity wall of the locking groove and is fixedly connected with the upper end of the locking slide block, the right cavity wall of the rotating groove is provided with a circuit breaking groove with a leftward opening in an inclined plane cutting manner, the circuit breaking groove is internally and slidably connected with a circuit breaking slide block, a circuit breaking spring is fixedly connected between the right end of the circuit breaking slide block and the rear cavity wall of the circuit breaking groove, the right end of the right pull rope penetrates through, the paying-off device is characterized in that a paying-off sliding block is connected in the paying-off groove in a sliding mode, a paying-off spring is fixedly connected between the right end of the paying-off sliding block and the right cavity wall of the paying-off groove, and the left end of the paying-off pulling rope penetrates through the left cavity wall of the taking-up cavity and the right cavity wall of the paying-off groove and is fixedly connected to the rear end.

Further, the heat-conducting plate has the heat conductivity, the sheetmetal is heated and then is crooked right, under the initial condition, the trigger is located driven pinion rack the place ahead, initial spring with initial stay cord all is in compression state.

The invention has the beneficial effects that: device simple structure, the simple operation, the device is when using, can be through when the fish rises to the bait after releasing the fish line, automatic receipts line after certain length of fish line extension, thereby avoid the fish to rise to the bait and make the fish run the condition when untimely, thereby when the strength of receiving the line in-process fish is great can't continue to receive the line, then the line is received in the automatic stop, thereby prevent to receive the phenomenon that the too big fish strength of line in-process fish strength breaks the fish line or the fishing rod runs off, then receive the line automatically when the fish drives the fish line stop motion, thereby it pulls out the fish from the aquatic to know the fish automatically to receive the line when not having strength so repeatedly, thereby greatly reduced the degree of difficulty of fishing, avoided fishing rod and fish line can cracked possibility.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram at A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the embodiment of the present invention at C in FIG. 1;

FIG. 5 is an enlarged schematic view of FIG. 1 at D according to an embodiment of the present invention;

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to fig. 1-5, an automatic fishing line-winding device installed on a fishing rod and controlled by a circuit breaker comprises a line-releasing casing 10, wherein a taper hole 36 communicating front and rear end faces of the line-releasing casing 10 is arranged inside the line-releasing casing 10, a fishing rod 37 is slidably connected in the taper hole 36, a threading ring 41 is fixedly connected at the front end of the fishing rod 37, a threading hole 42 communicating front and rear end faces of the threading ring 41 is further arranged inside the threading ring 41, a circuit chamber 12 is arranged inside the line-releasing casing 10, a circuit breaking chamber 22 is communicated on a left chamber wall of the circuit chamber 12, a line-winding chamber 43 is further arranged on the lower side of the circuit breaking chamber 22, a circuit mechanism 76 communicating a circuit of the device is arranged in the circuit breaking chamber 12, a circuit breaking mechanism 77 automatically cutting off the circuit of the device is arranged in the circuit breaking chamber 22, a line-winding mechanism 78 automatically winding the fishing line is arranged in the line-winding chamber 43, the spool 31 is fixedly connected with a left gear 44, the right end of the left gear 44 is fixedly connected with a right gear 48, the right gear 48 is fixedly connected to the spool 31, the right side of the left gear 44 is provided with a steering gear ring 79, the steering gear ring 79 is internally provided with a gear ring 58 communicated with the left end surface and the right end surface of the steering gear ring 79, the right end of the right gear 48 also extends into the gear ring 58, the cavity wall of the gear ring 58 is provided with a gear block groove 45 with an opening close to the central direction of the gear ring 58, the gear block groove 45 is internally provided with a gear block 47 in a sliding connection manner, a gear block spring 46 is fixedly connected between the gear block 47 and the cavity wall far away from the central direction of the gear ring 58, the left end of the spool 31 also penetrates through the left cavity wall of the take-up cavity 43 and extends out of the pay-off machine shell 10, and the left end of the spool 31 is positioned at the external part, a fishing line 40 is fixedly wound on the reel 30, and the other end of the fishing line 40 passes through the threading hole 42 and is fixed with a fishhook and a bait.

Beneficially, the left cavity wall and the right cavity wall of the wire winding cavity 43 are further rotatably connected with a driven shaft 50, the driven shaft 50 is further connected with a driven gear 59 through a spline, the left end of the driven gear 59 is further provided with a left annular cavity 62 with a leftward opening, the left annular cavity 62 is slidably connected with a left sliding block 61, a left spring 60 is fixedly connected between the left end of the left sliding block 61 and the left cavity wall of the wire winding cavity 43, the left end of the left sliding block 61 is further fixedly connected with a wire releasing stay cord 35, the lower cavity wall of the wire winding cavity 43 is further slidably connected with a driven toothed plate 52, a driven spring 54 is fixedly connected between the rear end of the driven toothed plate 52 and the rear cavity wall of the wire winding cavity 43, the lower cavity wall of the wire winding cavity 43 is further provided with a trigger 51, the rear cavity wall of the wire winding cavity 43 is further provided with an initial groove 56 with a forward opening, the initial sliding block 53 is slidably connected in the initial groove, the upper end of the initial sliding block 53 is fixedly connected with an initial pull rope 55, the right cavity wall of the wire take-up cavity 43 is rotatably connected with a power shaft 38, the power shaft 38 is connected with a power gear 63 through a spline, the right end of the power gear 63 is further provided with a right annular cavity 64 with a rightward opening, a right sliding block 65 is slidably connected in the right annular cavity 64, a right spring 66 is fixedly connected between the right end of the right sliding block 65 and the right cavity wall of the wire take-up cavity 43, the right end of the right sliding block 65 is further fixedly connected with a right pull rope 67, the right end of the power shaft 38 is further connected with a motor 39 through power, a positive-level fixedly connected with positive lead 17 of the motor 39, and a negative-.

Beneficially, the circuit mechanism 76 includes a coil cavity 19 disposed on the upper side of the circuit cavity 12, a coil shaft 21 is fixedly connected to the left and right cavity walls of the coil cavity 19, a coil wheel 20 is fixedly connected to the coil shaft 21, the left end of the coil shaft 21 penetrates through the left cavity wall of the coil cavity 19 and extends into the circuit breaking cavity 22, the upper metal plate 27 is further fixedly connected to the inside of the circuit breaking cavity 22 at the left end of the coil shaft 21, the right end of the positive wire 17 penetrates through the lower cavity wall of the circuit cavity 12 and the right cavity wall of the coil cavity 19 and is wound on the coil wheel 20, the right end of the positive wire 17 also penetrates through the left cavity wall of the coil cavity 19 and is fixedly connected to the right end of the upper metal plate 27, the left cavity wall of the circuit cavity 12 is further slidably connected to a magnetic attraction push rod 16, the right end of the magnetic attraction push rod 16 is fixedly connected to a magnetic attraction block 13, and a, the left end of the magnetic attraction block 13 is fixedly connected with a magnetic attraction spring block 15 between the left cavity walls of the circuit cavity 12, and the left end of the magnetic attraction push rod 16 also penetrates through the left cavity walls of the circuit cavity 12 and extends into the open circuit cavity 22.

Beneficially, the circuit breaking mechanism 77 includes a heat conducting plate 29 fixedly connected to the left cavity wall of the circuit breaking cavity 22, the right end of the heat conducting plate 29 extends into the circuit cavity 12, a lower metal plate 11 is further fixed to the right cavity wall of the circuit breaking cavity 22, the right end of the negative lead 18 penetrates through the lower cavity wall of the circuit breaking cavity 22 and is wound on the heat conducting plate 29, the right end of the negative lead 18 is further fixedly connected to the lower end of the lower metal plate 11, a metal sheet 26 is further fixedly connected to the heat conducting plate 29, a rotating rod 24 is further rotatably connected to the front cavity wall and the rear cavity wall of the circuit breaking cavity 22, a metal shifting piece 23 is fixedly connected to the rotating rod 24, a rotating torsion spring 25 is fixedly connected between the metal shifting piece 23 and the cavity wall of the circuit breaking cavity 22, the upper end of the metal shifting piece 23 is attached to the upper end of the metal sheet 26, the lower end of the metal, the lower end of the metal shifting sheet 23 is also attached to the left end of the magnetic suction push rod 16. The right cavity wall of the open circuit cavity 22 is further provided with a rotating groove 71 with a leftward opening, the upper cavity wall of the rotating groove 71 is further provided with a locking groove 70 with a downward opening, the locking groove 70 is internally and slidably connected with a locking slider 68, a locking spring 69 is fixedly connected between the upper end of the locking slider 68 and the upper cavity wall of the locking groove 70, the rear end of the initial pull rope 55 penetrates through the rear cavity wall of the take-up cavity 43 and the upper cavity wall of the locking groove 70 and is fixedly connected to the upper end of the locking slider 68, the right cavity wall of the rotating groove 71 is provided with a cut-off groove 72 with a leftward opening in an inclined plane, a cut-off slider 75 is slidably connected in the cut-off groove 72, a cut-off spring 74 is fixedly connected between the right end of the cut-off slider 75 and the rear cavity wall of the cut-up cavity 43, the right end of the right pull rope 67 penetrates, the left end of the paying-off machine shell 10 is further provided with a paying-off groove 32 with a left opening, a paying-off sliding block 33 is connected in the paying-off groove 32 in a sliding mode, a paying-off spring 34 is fixedly connected between the right end of the paying-off sliding block 33 and the right cavity wall of the paying-off groove 32, and the left end of the paying-off pull rope 35 penetrates through the left cavity wall of the winding cavity 43 and the right cavity wall of the paying-off groove 32 and is fixedly connected to the rear end of.

Advantageously, the heat-conducting plate 29 is thermally conductive, and the metal sheet 26 is heated and then bent to the right, and in the initial state, the trigger 51 is located in front of the driven toothed plate 52, and the initial spring 57 and the initial pull rope 55 are both in a compressed state.

Sequence of mechanical actions of the whole device:

1: the line releasing slider 33 is manually pressed to compress the line releasing spring 34, so that the line releasing pull rope 35 is loosened, the left slider 61 drives the driven gear 59 to move rightwards under the action of the left spring 60 so as to be disengaged from the teeth on the upper end surface of the driven toothed plate 52, at the moment, the fishing rod 37 is manually swung so as to extend the fishing line 40, so as to drive the reel 30 to rotate, so that the spool 31 is driven to rotate, so that the right gear 48 rotates, at the moment, the teeth on the right gear 48 and the tooth blocks 47 in the steering toothed ring 79 slide relatively, when the right gear 48 is engaged with the power gear 63, the teeth on the right gear 48 and the tooth blocks 47 in the steering toothed ring 79 slide relatively when the right gear 48 rotates, so that the steering toothed ring 79 and the power gear 63 do not rotate, meanwhile, the right gear 48 also drives the left gear 44 to rotate, so as to drive the driven gear 59 to rotate through the engagement with the driven gear 59, at the driven gear 59 is disengaged from the driven toothed plate 52, so as to, so that the fishing line 40 can be freely extended, and the user can freely control the length of the fishing line 40 according to the experience and the requirement of the user, after the fishing is finished, the fishing slider 33 is manually loosened, so that the fishing slider 33 is popped out under the action of the fishing spring 34, the fishing pulling rope 35 is tensioned, the left slider 61 is pulled to move left, the driven gear 59 is driven to move left to be re-meshed with the teeth at the upper end of the driven toothed plate 52, the driven gear 59 is restrained through the driven spring 54 at the rear end of the driven toothed plate 52 and the teeth at the upper end of the driven toothed plate 52, the left gear 44 is restrained through the meshing of the driven gear 59 and the left gear 44, the left gear 44 is prevented from freely rotating, the winding shaft 31 is prevented from freely rotating, the free rotation of the winding reel 30 is prevented, and the fishing line 40 is prevented from being freely extended under the environment such as the;

2: when a fish hooks up, the fishing line 40 is pulled, the reel 30 is pulled to rotate, the winding shaft 31 is pulled to rotate, the left gear 44 is pulled to rotate, the driven gear 59 is driven to rotate, the driven toothed plate 52 is driven to move forwards, the driven toothed plate 52 stops pressing the initial sliding block 53, the initial sliding block 53 is made to pop up under the action of the initial spring 57, the initial pull rope 55 is loosened, the locking sliding block 68 is made to pop up under the action of the locking spring 69, when the fish pulls the fishing line 40, the left gear 44 is driven, the driven gear 59 is driven, the driven toothed plate 52 is driven to move forwards to the lower end of the driven toothed plate 52 to trigger the trigger 51, the motor 39 is started, the power gear 63 is driven to rotate, the steering toothed ring 79 is driven to rotate reversely, the toothed block 47 in the steering toothed ring 79 is blocked by the teeth on the right gear 48 when rotating, and the right gear 48 is driven, thereby drive the spool 31 reversal, thereby drive the left gear 44 reversal, thereby drive driven gear 59 reversal, thereby drive driven tooth plate 52 reversal, thereby make driven tooth plate 52 rebound reset, thereby make the initial slider 53 of driven tooth plate 52 compression reset the initial slider 53, thereby taut initial stay cord 55 thereby makes the locking slider 68 shift up reset, spool 31 reversal simultaneously, thereby drive the reversal of reel 30, thereby taut fish tape 40, thereby pull up and accomplish the line action with the fish of fish tape 40 lower extreme aquatic.

3: when the fish is too strong, so that after the trigger 51 is triggered by the forward movement of the driven toothed plate 52, the motor 39 is started to drive the power shaft 38 to rotate reversely to drive the steering toothed ring 79 to rotate the right gear 48 reversely to drive the winding shaft 31 to rotate reversely to drive the winding reel 30 to rotate reversely to strain the fishing line 40, meanwhile, the winding shaft 31 rotates reversely to drive the left gear 44 to rotate reversely to drive the driven gear 59 to move reversely to drive the driven toothed plate 52 to move backwards, so that the fish is too strong in strength, thereby causing the motor 39 to overload, so that the magnetic force generated by the magnetic field formed by the positive lead 17 around the coil wheel 20 after the motor 39 is started is attracted to the magnet 14, and the attracted magnetic force is greater than the elastic force of the magnetic spring block 15, so that the magnetic block 13 drives the magnetic push rod 16 to move leftwards to push the metal pull piece 23 to rotate, so that the lower end of the metal pull piece 23 stops contacting with the upper metal plate 27, and when the motor 39 is overloaded, the positive lead 17 is overheated The metal sheet 26 is deformed to push the upper end of the metal shifting piece 23 to rotate around the rotating rod 24 and enter the rotating groove 71, at the moment, the initial pull rope 55 is in a loosening state, so that the upper end of the metal shifting piece 23 enters the rotating groove 71 and is self-locked by the locking slide block 68, so that the breaking slide block 75 is pressed, the right pull rope 67 is tensioned, the right slide block 65 is pulled to drive the power gear 63 to move rightwards, so that the engagement with the steering gear ring 79 is lost, meanwhile, the lower end of the metal shifting piece 23 is stopped to contact with the upper metal plate 27, so that the circuit of the device is disconnected, the motor 39 stops rotating, so that the fishing line 40 is stopped to be pulled, at the moment, the fishing line 40 can rotate freely, so that the fishing line 40 is pulled to drive the winding reel 30 to drive the winding shaft 31 to rotate, so that the left gear 44 is driven to drive the driven gear 59 to rotate, so that the driven, so that the driven toothed plate 52 is always positioned at the front end, thereby the initial sliding block 53 is not pressed, thereby the initial pull rope 55 is always loosened, thereby the upper end of the metal shifting piece 23 is always self-locked by the locking sliding block 68, when the fish does not drive the fish line 40 to be elongated any more, the reel 30 does not rotate any more, thereby the spool 31 does not rotate any more, thereby the left gear 44 and the driven gear 59 do not rotate any more, thereby the driven toothed plate 52 is not driven to move forwards any more, thereby the driven toothed plate 52 is reset under the action of the driven spring 54, thereby the initial sliding block 53 is tensioned again, thereby the initial pull rope 55 is tensioned, thereby the locking sliding block 68 is pulled, thereby the metal shifting piece 23 is popped up under the action of the rotating torsion spring 25, thereby the metal shifting piece 23 is reset to be in contact with the upper metal plate 27, thereby the device circuit is switched on, thereby the motor 39 is restarted, thereby the fish line 40 is tensioned again, thereby the fish line 40 is repeatedly pulled when the fish does not, so that the fish is pulled up through the fishing line 40, thereby realizing the function of fishing the big fish and automatically taking up the line, and when the line is taken up, the motor 39 is closed, and the device stops resetting.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.