CN222898087U - A spinning fishing reel - Google Patents

Abstract

A spinning reel is composed of casing with installing cavity, drive rocking handle, front-back reciprocating drive mechanism connected to drive rocking handle, rotary drive mechanism connected to drive rocking handle, wire cup connected to front-back reciprocating drive mechanism via mainshaft, wire outlet frame connected to rotary drive mechanism, and front-back reciprocating drive mechanism consisting of input gear, duplex transition gear, output gear, drive axle with reciprocating cross screw slot and front-back moving frame engaged to reciprocating cross screw slot. The front-back reciprocating transmission mechanism adopts the input gear, the duplex transition gear and the output gear to replace the front-back reciprocating transmission mechanism, so that the front-back reciprocating transmission mechanism has fewer parts, more reasonable arrangement mode and smaller occupied space, the wire wheel shell is lighter and thinner (length, width and thickness dimensions), the hand feeling is better, the surface of the wire wheel shell is not abrupt, and the appearance is more attractive.

Description

Spinning wheel type fishing line reel

Technical Field

The utility model relates to the technical field of products of fishing gear articles, in particular to a spinning wheel type fishing line reel.

Background

Fishing belongs to outdoor exercises, and aims to fish in water by using a fishing gear, and the fishing is not limited by sex and age, so that people and children like the fishing. Fishing is close to nature, and is thermally touted by wide lovers in the way of ceramic and mental operations.

Basically, the fishing reel is divided into two main categories, drum wheels with parallel winding displacement direction follow-up line direction and spinning wheels with perpendicular winding displacement direction follow-up line direction. The reel is assembled on the fishing rod, and then the shape of the spool is observed. If the bus bar is wound or released by directly rotating the spool, the bus bar is discharged into the spool without turning at a large angle, but is discharged into the spool in a nearly parallel direction, namely the drum fishing reel. Conversely, when the bus bar is in and out, the spool does not need to rotate (but in some cases, the spool rotates when the bus bar is out), the action of winding the bus bar is performed by a winding arm, and the bus bar needs to rotate a large bend of approximately ninety degrees when entering the spool, so the device is called a spinning wheel type fishing reel. Spinning wheel type fishing reel is used in sea fishing, road sub-activity and lake marsh fishing in large quantity. The method is characterized by simple operation, full hand feeling after the skill, and no need of eyes. The throwing resistance is small, the lighter fishing group can be thrown, and the line disorder is not easy. When the spinning wheel type fishing reel is used, the wire cup is required to continuously reciprocate, so that the fishing wire is thrown to a distance.

In prior art example 1, see patent document CN202153952U, a fishing reel is disclosed that includes a fishing reel main body, a spool, a transmission device and a rotor, the transmission device includes a first transmission gear, a second transmission gear and a slider, the slider includes a slider body, a spindle insertion hole, a spindle lock hole and a slider groove, the slider further includes a first support arm, a first support post, a first bearing, a second support arm, a second support post, a second bearing and a third bearing. According to the utility model, the sliding bearing supporting device which can stably move and is wear-resistant is arranged on the sliding block, so that the handle rotates smoothly, the internal stress is finely adjusted by using the insertion rod with smaller diameter and the assembly part with the adjusting function, and the service life of the fishing reel is longer. The front-back reciprocating transmission mechanism shown in the technical example 1 has a simple and effective structure of a transmission gear part, but is limited by the motion track characteristics of the transmission block with an S-shaped chute, so that when the line is wound and unwound, the upper winding displacement of the line is uneven and uneven, namely, the local area of the line cup has more line, and the other part of the line cup has less line.

In example 2 of the prior art, see patent document CN101385450B, a spinning reel is disclosed in which the front-back size of the reel body can be reduced. The threaded shaft is disposed on the rod mount side (upper side) of the master gear shaft, the spool shaft is disposed on the rod mount side (lower side) of the master gear shaft, and the engagement member engaged with the spiral groove of the threaded shaft is disposed on the rod mount side (upper side) of the master gear shaft. The slider body has a 1 st mounting portion, a 2 nd mounting portion, and a connecting portion, wherein the 1 st mounting portion is disposed on a side (lower side) of the main gear shaft away from the pole mount for fixing with the spool shaft, the 2 nd mounting portion is disposed on a side of the main gear shaft on the pole mount for mounting the engaging member, and the connecting portion connects the 1 st mounting portion and the 2 nd mounting portion, and when the spool shaft is positioned at the foremost position, the connecting portion rides on the main gear shaft together with the 1 st mounting portion and the 2 nd mounting portion.

In combination with technical example 2 and other prior arts, since the operating direction of the rocking handle is different from the movement direction of the wire cup, reversing, transmission, speed reduction and other functions need to be realized in the transmission process, and the front-back reciprocating transmission mechanisms in the prior arts have the same characteristics, namely, all adopt the transmission parts of worm gears and worms, specifically, the rocking handle is connected with the worm gear through the rocking handle shaft, the worm gear is meshed with the worm, the worm is meshed with the duplex gear, the duplex gear is meshed with the reduction gear set again, the reduction gear set is meshed with the output gear, the output gear forms transmission fit with the driving shaft with the reciprocating cross thread groove, the front-back movement support is transmitted with the driving shaft, so that the rocking handle rotates and then drives the front-back movement support to perform front-back movement, and the front-back movement support drives the wire cup to perform front-back reciprocating movement through the main shaft. The front-back reciprocating transmission mechanism has the defects that at least 1, the size of a worm gear is larger than that of a common gear, so that larger installation space is required, the whole weight of a fishing line wheel is increased, the hand feeling is reduced, 2, a reduction gear is required to be added in the transmission process due to the larger transmission ratio between the worm gear and a worm wheel, so that the speed in output reaches a specified range, the worm gear, the reduction gear and the output gear are all distributed along the same direction, the worm gear, the reduction gear and the output gear are required to be arranged in order to meet the installation and use requirements, an irregular abrupt structure (for adapting to the shape of each gear) is necessarily caused to appear in the line wheel housing, the reduction gear is too low, firstly, the resistance is larger, the user is tired, secondly, the rotation speed of a line cup is unstable in the actual use process, the fishing line is unevenly distributed on the line cup in winding process, the line cup is affected, and the smoothness of the line is greatly affected, and 4, the size of the worm gear occupies a larger space of the line wheel housing, so that the structure of the worm wheel is limited in the prior art, the line housing is limited in the length of the line housing, and the line housing is further limited in the prior art.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a spinning reel.

The technical scheme for solving the technical problems is that the spinning wheel type fishing line reel comprises:

The wire wheel shell is internally provided with an installation cavity;

A driving crank movably provided at one side of the reel housing through a crank shaft;

The front-back reciprocating transmission mechanism is in transmission connection with the driving rocking handle;

the rotary transmission mechanism is in transmission connection with the driving rocking handle;

The wire cup is used for winding the fish wire and is connected to the front-back reciprocating transmission mechanism through the main shaft;

The wire outlet bracket is connected to the rotary transmission mechanism in a transmission way;

The front-back reciprocating transmission mechanism comprises an input gear, a duplex transition gear, an output gear, a driving shaft with a reciprocating cross thread groove and a front-back movement bracket meshed with the reciprocating cross thread groove;

the input gear is sleeved on the crank shaft;

The double transition gear is meshed with the input gear and the output gear respectively and forms transmission fit;

The driving shaft is rotationally connected to the wire wheel shell, and the output gear is sleeved on the driving shaft, so that the driving shaft can rotate along with the output gear;

The front-back movement support is provided with a transmission pawl, the transmission pawl is meshed in the reciprocating cross thread groove and can move along the reciprocating cross thread groove, and the main shaft is connected to the front-back movement support.

A more specific preferred embodiment of the forward and backward reciprocating transmission mechanism is that the input gear is a small diameter spur gear;

The double transition gear is provided with a first straight gear section and a first bevel gear section, and the first straight gear section is meshed with the input gear and forms transmission fit;

the output gear is a first bevel gear, and the first bevel gear is meshed with the first bevel gear section and forms transmission fit;

The gear axes of the input gear and the duplex transition gear are respectively perpendicular to the axis of the main shaft, and the gear axis of the output gear and the axis of the driving shaft are respectively parallel to the axis of the main shaft.

Another more specific preferred embodiment of the front-rear reciprocating transmission mechanism is that the input gear is a large-diameter bevel gear;

The double transition gear is provided with a second spur gear section and a second bevel gear section, and the second bevel gear section is meshed with the input gear and forms transmission fit;

The output gear is a first straight gear, and the first straight gear is meshed with the second straight gear section to form transmission fit;

The gear axis of the input gear is perpendicular to the axis of the main shaft, and the gear axis of the duplex transition gear, the gear axis of the output gear and the axis of the driving shaft are respectively parallel to the axis of the main shaft.

The supplementary structure of the front-back reciprocating transmission mechanism is that the front-back reciprocating transmission mechanism also comprises a guide rod, the guide rod is fixed in the wire wheel shell, and the axle center of the guide rod is arranged in parallel with the axle center of the main shaft;

The front-back movement support is provided with a guide end and an output end, the guide end is provided with a guide hole, the guide rod penetrates through the guide hole, and the main shaft is fixed on the output end.

Preferably, the transmission pawl is located between the guide end and the output end.

The more specific preferred embodiment of the rotary transmission mechanism is that the rotary transmission mechanism comprises a worm wheel disc sleeved on a crank shaft, a rotary worm sleeved on a main shaft and a transition rotary disc in transmission connection with the rotary worm through a flat structure;

The rotating worm is meshed with the worm wheel disc and forms transmission fit;

The outgoing line support is fixed on the transition rotating disc and can rotate along with the transition rotating disc.

Preferably, a rotating bearing is arranged between the rotating worm and the wire wheel shell.

In some preferred embodiments of the present utility model, the wire outlet bracket is rotatably connected with a wire outlet switch, and the wire outlet switch is provided with a wire outlet groove.

In some preferred embodiments of the present utility model, a brake mechanism is further disposed between the wire cup and the wire wheel housing, and a brake adjusting knob is disposed on the wire cup.

In some preferred embodiments of the present utility model, the two sides of the wire wheel housing are provided with rocking handle connecting holes, and the driving rocking handle is connected to any rocking handle connecting hole.

The utility model has the beneficial effects that:

1. The front-back reciprocating transmission mechanism adopts the input gear, the duplex transition gear and the output gear to replace, so that the front-back reciprocating transmission mechanism has fewer parts, more reasonable arrangement mode (vertical and horizontal staggering) and smaller occupied space, thereby the wire wheel shell can be made lighter and thinner (length, width and thickness dimension), the hand feeling is better, the surface of the wire wheel shell is not abrupt, and the appearance is more attractive.

2. The wire feeding cup has more reasonable transmission ratio for the movement of the wire feeding cup, does not need to additionally arrange a reduction gear, has small resistance during use, is smoother in wire winding and unwinding, and is lighter in user operation.

3. The track of the back-and-forth movement is more stable, so that the fishing lines on the line cup are more regularly led out or taken up, and meanwhile, the fishing lines can be more uniformly distributed on the line cup.

4. With the same reel housing size, a larger drive shaft (mainly with longer reciprocating cross thread grooves) can be assembled, thereby allowing longer distances of fishing line to be retrieved in a single forward and backward reciprocation cycle.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is an exploded view of a partial structure of a first aspect of the second embodiment.

Fig. 3 is a partial structural sectional view of the first aspect in the second embodiment.

Fig. 4 is a schematic diagram of the internal structure of the first embodiment.

Fig. 5 is a schematic structural view of a front-rear reciprocating transmission mechanism of a first embodiment of the second embodiment.

Fig. 6 is a partial structural exploded view of a second aspect of the second embodiment.

Fig. 7 is a schematic diagram of the internal structure of the second embodiment.

Fig. 8 is a schematic structural view of a front-rear reciprocating transmission mechanism of a second embodiment.

Fig. 9 is a schematic partial structure of the rotary transmission mechanism of the present utility model.

Fig. 10 is a partial structural cross-sectional view of the rotary transmission mechanism in the present utility model.

In the figure, 1, a wire wheel shell, 11, a mounting cavity, 12, a driving rocking handle, 13, a rocking handle shaft, 14, a rocking handle connecting hole, 15, a main shaft, 2, a front-back reciprocating transmission mechanism, 21, an input gear, 211, a small diameter straight gear, 212, a large diameter bevel gear, 22, a duplex transition gear, 221, a first straight gear section, 222, a first bevel gear section, 223, a second straight gear section, 224, a second bevel gear section, 23, an output gear, 231, a first bevel gear, 232, a first straight gear, 24, a driving shaft, 241, a reciprocating cross thread groove, 25, a front-back moving bracket, 251, a transmission pawl, 252, a guide end, 2521, a guide hole, 253, an output end, 25a power input point, 25b, a power output point, 26, a guide rod, 3, a rotary transmission mechanism, 31, a worm wheel disc, 32, a rotary worm, 34, a transition rotary disc, 35, a rotary bearing, 4, a wire cup, 41, a brake adjusting knob, 5, a wire outgoing bracket, 51, a wire outgoing switch, an outgoing line switch and wire groove.

Detailed Description

The utility model will be further described with reference to the drawings and specific examples. It should be noted that the examples are only specific to the present utility model and are for the purpose of better understanding of the technical solutions of the present utility model to those skilled in the art, and should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that, as the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used for convenience of description and simplicity of description, only as to the orientation or positional relationship shown in the drawings, and not as an indication or suggestion that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model.

In the description of the present utility model, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" should be interpreted broadly, as referring to, for example, a fixed connection, a removable connection, or an integral connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection via an intermediary, or a communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases to those skilled in the art.

Example 1

Referring to fig. 1 to 10, a spinning reel comprises a reel housing 1 having a mounting cavity 11 therein for providing a space for assembling a plurality of parts, a driving crank 12 movably provided at one side of the reel housing 1 through a crank shaft 13, a user holding the driving crank 12 and shaking it to provide power, a front and rear reciprocating transmission mechanism 2 in transmission connection with the driving crank 12, a rotary transmission mechanism 3 in transmission connection with the driving crank 12, a wire cup 4 for winding a fishing wire, the wire cup 4 being connected to the front and rear reciprocating transmission mechanism 2 through a main shaft 15, and a wire outlet bracket 5 in transmission connection with the rotary transmission mechanism 3. The user operates the driving rocking handle 12, on one hand, the wire cup 4 can move forwards and backwards through the transmission of the front-back reciprocating transmission mechanism 2, and on the other hand, the wire outlet bracket 5 rotates through the rotary transmission mechanism 3, so that the wire outlet or wire collecting function of the spinning reel is realized.

The present utility model is different from the prior art in that the front-rear reciprocating transmission mechanism 2 comprises an input gear 21, a duplex transition gear 22, an output gear 23, a driving shaft 24 with a reciprocating cross thread groove 241, and a front-rear movement bracket 25 engaged with the reciprocating cross thread groove 241, wherein the input gear 21 is sleeved on the rocking handle shaft 13, the duplex transition gear 22 is engaged with the input gear 21 and the output gear 23 respectively and forms a transmission fit, the driving shaft 24 is rotatably connected to the wire wheel housing 1, the output gear 23 is sleeved on the driving shaft 24 so that the driving shaft 24 can rotate together with the output gear 23, the front-rear movement bracket 25 is provided with a transmission pawl 251 engaged in the reciprocating cross thread groove 241 and capable of moving along the reciprocating cross thread groove 241, and the main shaft 15 is connected to the front-rear movement bracket 25.

The above is the basic structure scheme of the utility model, the front and back reciprocating transmission mechanism 2 does not adopt the parts such as the conventional worm gear and the like, and the input gear 21, the duplex transition gear 22 and the output gear 23 are adopted to replace the parts of the front and back reciprocating transmission mechanism 2, so that the number of the parts of the front and back reciprocating transmission mechanism 2 is smaller, the occupied space is smaller, the wire wheel housing 1 can be made lighter and thinner (the length, the width and the thickness dimension), the surface of the wire wheel housing 1 is not abrupt, on the other hand, the wire wheel housing 1 has more reasonable transmission ratio for the movement of the wire cup 4, the resistance is small, the operation is lighter, the track of the front and back movement is more stable, the wire on the wire cup 4 can be more regularly led out or wound, and meanwhile, the wire can be distributed on the wire cup 4 more uniformly.

In the utility model, a paying-off switch 51 is rotatably connected to the outgoing line bracket 5, and a wire outlet slot 511 is arranged on the paying-off switch 51. The action of the pay-off switch 51 is mainly to control the release and reset of the wire-out support 5, and its specific working principle is consistent with that of the pay-off switch 51 in the prior art, and will not be repeated here.

It should be noted that a brake mechanism (not shown) is further disposed between the wire cup 4 and the wire wheel housing 1, and a brake adjusting knob 41 is disposed on the wire cup 4. The user operates the brake adjusting knob 41 to control the state of the brake mechanism to increase or decrease the brake resistance to increase or decrease the rotational speed of the outlet bracket 5.

Preferably, the two sides of the reel housing 1 are provided with rocking handle connecting holes 14, and the driving rocking handle 12 is connected to any rocking handle connecting hole 14, so as to meet the requirement of left hand control or right hand control.

Example two

Based on the structure of the first embodiment, there are various specific options and arrangements of each component in the front-rear reciprocating transmission mechanism 2, and this embodiment provides 2 preferred schemes, specifically as follows:

In a first scheme, referring to fig. 2-5, the input gear 21 is a small diameter straight gear 211, the duplex transition gear 22 is provided with a first straight gear 232 section 221 and a first bevel gear 231 section 222, the first straight gear 232 section 221 is meshed with the input gear 21 and forms a transmission fit, the output gear 23 is a first bevel gear 231, and the first bevel gear 231 is meshed with the first bevel gear 231 section 222 and forms a transmission fit;

The gear axes of the input gear 21 and the duplex transition gear 22 are respectively perpendicular to the axis of the main shaft 15, and the gear axis of the output gear 23 and the axis of the driving shaft 24 are respectively parallel to the axis of the main shaft 15.

In a second scheme, referring to fig. 6-8, the input gear 21 is a large diameter bevel gear 212, the duplex transition gear 22 has a second spur gear section 223 and a second bevel gear section 224, the second bevel gear section 224 is meshed with the input gear 21 and forms a transmission fit, the output gear 23 is a first spur gear 232, and the first spur gear 232 is meshed with the second spur gear section 223 and forms a transmission fit;

Wherein, the gear axis of the input gear 21 is perpendicular to the axis of the main shaft 15, and the gear axes of the duplex transition gear 22, the output gear 23 and the driving shaft 24 are parallel to the axis of the main shaft 15.

The two schemes can realize effective power transmission, and the wire wheel shell is small in size, reasonable in transmission ratio, more compact in arrangement, small in occupied space and capable of adapting to wire wheel shells 1 with more shapes.

On the basis of the above, the structure of the front-back reciprocating transmission mechanism 2 is that the front-back reciprocating transmission mechanism 2 further comprises a guide rod 26, the guide rod 26 is fixed in the reel shell 1, the axis of the guide rod 26 is parallel to the axis of the main shaft 15, the front-back movement bracket 25 is provided with a guide end 252 and an output end 253, the guide end 252 is provided with a guide hole 2521, the guide rod 26 passes through the guide hole 2521, and the main shaft 15 is fixed on the output end 253. By the cooperation of the guide rod 26 and the guide hole 2521, the forward and backward reciprocating movement of the forward and backward movement bracket 25 is smoother when the forward and backward movement bracket is forced to move, and the phenomenon of deflection cannot occur, so that the main shaft 15 also moves smoothly.

The transmission pawl 251 is a power input point 25a of the forward and backward movement bracket 25, and the guide end 252 and the output end 253 are power output points 25b of the forward and backward movement bracket 25. Preferably, the driving pawl 251 is located between the guiding end 252 and the output end 253, so that the overall stress of the front-back movement bracket 25 is more reasonable, and the situation that deformation and damage are caused by overlarge local stress is eliminated.

Example III

On the basis of the structure of any of the foregoing embodiments, a more specific preferred structure of the rotary transmission mechanism 3 is that, referring to fig. 3, 9 and 10, the rotary transmission mechanism 3 includes a worm wheel disc 31 sleeved on the crank shaft 13, a rotary worm 32 sleeved on the main shaft 15, and a transition rotary disc 34 in transmission connection with the rotary worm 32 through a flat structure, the rotary worm 32 is meshed with the worm wheel disc 31 and forms transmission fit, and the wire outlet bracket 5 is fixed on the transition rotary disc 34 and can rotate along with the transition rotary disc 34.

The working principle of the rotary transmission mechanism 3 is that a user operates and drives the rocking handle 12, the rocking handle shaft 13 drives the worm wheel disc 31 to rotate, the worm wheel disc 31 drives the rotary worm 32 to rotate (the main shaft 15 does not rotate), and the rotary worm 32 drives the transition rotary disc 34, so that the wire outlet bracket 5 rotates along with the transition rotary disc 34.

Preferably, a rotating bearing 35 is provided between the rotating worm 32 and the reel housing 1 to better support the rotating worm 32 for rotation.

It should be noted that other technical solutions of the present utility model belong to the prior art, and are not described in detail.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the concept of the present utility model, and such modifications and adaptations are intended to be comprehended within the scope of the present utility model.

Claims (10)

1. A spinning wheel type fishing line reel, comprises the following steps:

a reel housing (1) having a mounting cavity (11) therein;

A driving crank (12) movably provided at one side of the reel housing (1) through a crank shaft (13);

a front-back reciprocating transmission mechanism (2) which is in transmission connection with the driving rocking handle (12);

a rotary transmission mechanism (3) which is in transmission connection with the driving rocking handle (12);

The wire cup (4) is used for winding the fish wire, and the wire cup (4) is connected to the front-back reciprocating transmission mechanism (2) through the main shaft (15);

the outgoing line bracket (5) is in transmission connection with the rotary transmission mechanism (3);

The front-back reciprocating transmission mechanism (2) is characterized by comprising an input gear (21), a duplex transition gear (22), an output gear (23), a driving shaft (24) with a reciprocating cross thread groove (241) and a front-back movement bracket (25) meshed with the reciprocating cross thread groove (241);

The input gear (21) is sleeved on the rocking handle shaft (13);

The duplex transition gear (22) is respectively meshed with the input gear (21) and the output gear (23) and forms transmission fit;

The driving shaft (24) is rotatably connected to the wire wheel shell (1), and the output gear (23) is sleeved on the driving shaft (24) so that the driving shaft (24) can rotate along with the output gear (23);

the front-back movement bracket (25) is provided with a transmission pawl (251), the transmission pawl (251) is meshed in the reciprocating cross thread groove (241) and can move along the reciprocating cross thread groove (241), and the main shaft (15) is connected to the front-back movement bracket (25).

2. The spinning reel according to claim 1, wherein the input gear (21) is a small diameter spur gear (211);

The double transition gear (22) is provided with a first straight gear section (221) and a first bevel gear section (222), and the first straight gear section (221) is meshed with the input gear (21) and forms a transmission fit;

The output gear (23) is a first bevel gear (231), and the first bevel gear (231) is meshed with the first bevel gear (231) section (222) and forms a transmission fit;

The gear shaft centers of the input gear (21) and the duplex transition gear (22) are respectively perpendicular to the shaft center of the main shaft (15), and the gear shaft center of the output gear (23) and the shaft center of the driving shaft (24) are respectively parallel to the shaft center of the main shaft (15).

3. The spinning reel according to claim 1, wherein the input gear (21) is a large diameter bevel gear (212);

The double transition gear (22) is provided with a second spur gear section (223) and a second bevel gear section (224), and the second bevel gear section (224) is meshed with the input gear (21) and forms a transmission fit;

The output gear (23) is a first straight gear (232), and the first straight gear (232) is meshed with the second straight gear section (223) and forms a transmission fit;

The gear axis of the input gear (21) is perpendicular to the axis of the main shaft (15), and the gear axis of the duplex transition gear (22), the gear axis of the output gear (23) and the axis of the driving shaft (24) are respectively parallel to the axis of the main shaft (15).

4. The spinning reel according to any one of claims 1 to 3, wherein the front-rear reciprocating transmission mechanism (2) further comprises a guide rod (26), the guide rod (26) is fixed in the reel housing (1), and the axis of the guide rod (26) is parallel to the axis of the main shaft (15);

The front-back movement bracket (25) is provided with a guide end (252) and an output end (253), the guide end (252) is provided with a guide hole (2521), the guide rod (26) passes through the guide hole (2521), and the main shaft (15) is fixed on the output end (253).

5. The spinning reel of claim 4, wherein said transmission pawl (251) is located between said guide end (252) and said output end (253).

6. The spinning reel according to claim 1, wherein the rotary transmission mechanism (3) comprises a worm wheel disc (31) sleeved on the crank shaft (13), a rotary worm (32) sleeved on the main shaft (15), and a transition rotary disc (34) in transmission connection with the rotary worm (32) through a flat structure;

The rotating worm (32) is meshed with the worm wheel disc (31) and forms transmission fit;

The outgoing line support (5) is fixed on the transition rotating disc (34) and can rotate along with the transition rotating disc (34).

7. The spinning reel according to claim 6, wherein a rotation bearing (35) is provided between the rotation worm (32) and the reel housing (1).

8. The spinning reel as claimed in claim 1, wherein the line outlet bracket (5) is rotatably connected with a line outlet switch (51), and the line outlet switch (51) is provided with a line outlet groove (511).

9. The spinning reel according to claim 1, wherein a brake mechanism is further arranged between the wire cup (4) and the reel housing (1), and a brake adjusting knob (41) is arranged on the wire cup (4).

10. The spinning reel according to claim 1, wherein the reel housing (1) has crank attachment holes (14) formed on both sides thereof, and the driving crank (12) is attached to any one of the crank attachment holes (14).