CN220044631U - Self-adaptive magnetic force retarding device, fishing reel and fishing tackle - Google Patents

Abstract

The embodiment of the utility model discloses a self-adaptive magnetic retarding device, a fishing reel and a fishing tackle, wherein the self-adaptive magnetic retarding device comprises a metal wire wheel and a magnetic retarding mechanism, the magnetic retarding mechanism is arranged on one side of the metal wire wheel and comprises a magnet moving assembly, a base and a reset assembly, the magnet moving assembly is sleeved on the base and is used for generating a magnetic induction wire when the metal wire wheel rotates, and the magnet moving assembly automatically adjusts the depth screwed into the metal wire wheel under the rotating speed of the metal wire wheel and the action of the reset assembly so as to automatically change the area of the metal wire wheel for cutting the magnetic induction wire, thereby automatically adjusting the resistance of the magnet moving assembly to the metal wire wheel. The utility model realizes stable wire outlet during throwing and paying-off, and simultaneously, the change of resistance is more stable, and the problem of jumping is avoided, thereby improving the throwing distance as much as possible.

Description

Self-adaptive magnetic force retarding device, fishing reel and fishing tackle

Technical Field

The utility model relates to the technical field of fishing tools, in particular to a self-adaptive magnetic retarding device, a fishing reel and a fishing tool.

Background

Fishing vessels are an important component of fishing tackles, and fishing vessels currently on the market are basically equipped with magnetic retarding mechanisms (or so-called magnetic braking mechanisms).

The existing manual magnetic force retarding mechanism can only manually adjust the magnitude of the intervention of a magnet braking assembly to the braking force (resistance) of the wire wheel before throwing, can not be matched with the rotating speed of the wire wheel to achieve self-adaptive intervention braking force (dynamic adjustment effect), and if the dynamic adjustment gear is smaller, the condition of wire disorder can occur in the front stage of the throwing and feeding process. When the manual adjustment gear is bigger, the magnetic force is too large, and the throwing distance is not ideal.

The existing self-adaptive magnetic retarding mechanism is not ideal in synchronous matching of braking force and rotating speed of a metal wire wheel, and the patent with the publication number of CN113812382A discloses the self-adaptive magnetic retarding mechanism, which comprises the following steps: the centrifugal adjusting component is used for automatically adjusting the distance between the magnet component and the inner wall of the metal wire wheel according to the rotating speed of the metal wire wheel so as to adjust the range of the metal wire wheel for cutting the magnetic induction wire, thereby automatically adjusting the braking force. However, when the fishing reel throws the line, the brake force can change in size to form larger jump along with the change of the line outlet distance, so that stable transition in the whole process of throwing the line cannot be met, and particularly when the fishing reel throws the line in the latter half of the process, the brake force can directly cause non-ideal throwing distance due to larger jump of the brake force.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, provides a self-adaptive magnetic retarder, a fishing vessel and a fishing tackle, and aims to realize the high-speed line-outgoing stability of the front stage during the throwing line, and the lower the rotating speed of the rear stage, the lower the resistance, the smaller the traction force the throwing line flies, so as to increase the throwing distance.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the first aspect, self-adaptation magnetic force retarder, including metal wire wheel and magnetic force retarder, magnetic force retarder locates one side of metal wire wheel, magnetic force retarder includes magnet moving assembly, base and reset module, magnet moving assembly cup joint in the base, magnet moving assembly is used for producing the magnetic induction line when the metal wire wheel rotates, magnet moving assembly is in under the rotational speed of metal wire wheel and reset module's effect automatically regulated screw in the degree of depth of metal wire wheel, in order to automatically change the metal wire wheel cutting the area of magnetic induction line, thereby automatically regulated magnet moving assembly is right the resistance size of metal wire wheel.

The further technical scheme is as follows: the magnet moving assembly comprises a moving ring and a magnetic piece, the moving ring is sleeved on the base and can do spiral motion relative to the base, the moving ring is provided with a magnetic piece mounting groove, and the magnetic piece is fixed in the magnetic piece mounting groove.

The further technical scheme is as follows: the base circumference is arranged with the helicla flute, the removal ring be equipped with the protruding of helicla flute complex, protruding when following the route that the helicla flute set up is removed, the removal ring is for the base is spiral motion.

The further technical scheme is as follows: the reset assembly comprises a limit cover plate and a reset spring, wherein the limit cover plate is fixedly connected with the base, a spring groove is circumferentially arranged on one side of the movable ring, which is close to the limit cover plate, the reset spring is installed in the spring groove, the limit cover plate is provided with an embedded part arranged in the spring groove, the embedded part is provided with an extrusion part, and when the movable ring is stressed to move in the direction close to the metal wire wheel, the reset spring is stressed and compressed under the action of the groove wall of the spring groove and the extrusion part.

The further technical scheme is as follows: the base circumference is arranged with a plurality of base slope incisions, the one side that the shifting ring is close to the base is equipped with a plurality of shifting ring slope lug that the base slope incision screw movement was cooperated.

The further technical scheme is as follows: the reset assembly comprises a limit cover plate and a reset spring, wherein the limit cover plate is fixedly connected with the base, a spring groove and a movable ring inclined notch are formed in one side, close to the limit cover plate, of the movable ring, the reset spring is installed in the spring groove, the limit cover plate is provided with an embedded portion arranged in the spring groove and a limit cover plate inclined lug which is in spiral movement fit with the movable ring inclined notch, the embedded portion is provided with an extrusion portion, and when the movable ring is stressed to move towards the direction close to the metal wire wheel, the reset spring is stressed to be compressed under the action of the groove wall of the spring groove and the extrusion portion.

The further technical scheme is as follows: the base is circumferentially provided with a plurality of base inclined cuts, and one side of the movable ring, which is close to the base, is provided with movable ring inclined convex blocks which are in spiral movement fit with the plurality of base inclined cuts; the reset assembly comprises a limit cover plate and a reset spring, the limit cover plate is fixedly connected with the base, a step hole is formed in the middle of the movable ring, the reset spring is arranged in the step hole, and when the movable ring moves in the direction close to the metal wire wheel, the reset spring is compressed under the extrusion of the limit cover plate under the stress.

The further technical scheme is as follows: still include manual adjustment mechanism, manual adjustment mechanism includes side cap, manual brake base, adjust knob, spiral movable block, spacing spring and spring positioning column, manual brake base with side cap fixed connection, the spiral movable block with remove ring fixed connection, adjust knob with the spiral movable block all cup joint in on the manual brake base, adjust knob with the contact surface of spiral movable block both is the helicoid, the spring positioning column with the spiral movable block is connected, spacing spring cover is located the spring positioning column with between the spiral movable block.

In a second aspect, a fishing vessel comprises a fishing vessel body and the adaptive magnetic retarder, wherein the adaptive magnetic retarder is connected with the fishing vessel body.

In a third aspect, an angling rig comprises a fishing reel as described above.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, the area of the metal wire wheel for cutting the magnetic induction wire is changed by utilizing the depth change of the magnet moving assembly screwed into the metal wire wheel, so that the resistance of the magnet moving assembly to the metal wire wheel is automatically adjusted, and as the rotating speed of the metal wire wheel is from high to low during throwing and paying off, the metal wire wheel rotates at a high speed when throwing and paying off is started, the magnet moving assembly can be gradually screwed into the metal wire wheel, so that the resistance can be automatically and stably gradually increased, the wire disorder caused by the overlarge rotating speed of the initial speed at the moment of throwing is avoided, the speed of the metal wire wheel is reduced after throwing for a period of time, and the magnet moving assembly is rotated out from the metal wire wheel to return to the initial position under the action of the reset assembly, so that the resistance is automatically and stably reduced, and the throwing distance is further as far as possible.

In addition, in the manual adjusting mechanism, through the rotation operation of the adjusting knob, the spiral moving block can drive the base to axially move, so that the initial resistance is adjusted.

The foregoing description is only an overview of the present utility model, and is intended to be implemented in accordance with the present utility model so that the same may be more clearly understood, as well as to provide a better understanding of the present utility model with reference to the following detailed description of the preferred embodiments.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is an exploded view of an adaptive magnetic retarder according to an embodiment of the present utility model;

fig. 2 is an assembly diagram of an adaptive magnetic retarder according to an embodiment of the present utility model;

fig. 3 is a schematic structural diagram of a moving ring in the adaptive magnetic retarder according to the first embodiment of the present utility model;

fig. 4 is a schematic structural diagram of a limiting cover plate in the adaptive magnetic retarder according to the first embodiment of the present utility model;

fig. 5 is an exploded view of a part of the structure of the adaptive magnetic retarder according to the second embodiment of the present utility model;

fig. 6 is a schematic structural diagram of a moving ring of the adaptive magnetic retarder according to the second embodiment of the present utility model;

fig. 7 is an exploded view of a part of the structure of an adaptive magnetic retarder according to the third embodiment of the present utility model;

fig. 8 is a schematic structural diagram of a moving ring of the adaptive magnetic retarder according to the third embodiment of the present utility model.

Reference numerals

Reference numerals of the first embodiment:

1. a wire wheel; 11. a wheel axle; 2. a magnetic retarding mechanism; 21. a moving ring; 211. a magnetic member mounting groove; 212. a spring groove; 213. a protrusion; 22. a base; 221. a spiral groove; 23. a limit cover plate; 231. an embedding part; 2311. an extrusion part; 24. a return spring; 25. a magnetic member; 3. a manual adjustment mechanism; 31. a manual brake base; 32. an adjustment knob; 33. a spiral moving block; 34. a side cover; 35. a limit spring; 36. a spring positioning column; 4. and (3) a bearing.

Reference numerals of the second embodiment:

21A, a moving ring; 212A, spring grooves; 22A, a base; 23A, a limiting cover plate; 5. the movable ring inclines the lug; 6. a base inclined notch; 7. the limit cover plate is provided with an inclined lug; 8. the shift ring tilts the slit.

Reference numerals of embodiment three:

21B, a moving ring; 22B, a base; 23B, a limiting cover plate; 24B, a return spring; 5B, moving the oblique lug of the ring; 6B, a base inclined notch; 9. a stepped hole.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described below in conjunction with specific embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be understood that the terms "comprises" and "comprising," when used in this specification and claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

Fig. 1-4 show an adaptive magnetic force retarding device according to a first embodiment of the present utility model, as shown in fig. 1-4, the device includes a metal wire wheel 1 and a magnetic force retarding mechanism 2, the magnetic force retarding mechanism 2 is disposed on one side of the metal wire wheel 1, the magnetic force retarding mechanism 2 includes a magnet moving assembly, a base 22 and a reset assembly, the magnet moving assembly is sleeved on the base 22, the magnet moving assembly is used for generating a magnetic induction wire when the metal wire wheel 1 rotates, and the magnet moving assembly automatically adjusts the depth screwed into the metal wire wheel 1 under the rotation speed of the metal wire wheel 1 and the action of the reset assembly so as to automatically change the area of the metal wire wheel 1 for cutting the magnetic induction wire, thereby automatically adjusting the resistance of the magnet moving assembly to the metal wire wheel 1.

The wire wheel 1 is made of metal, but in other embodiments, a wire wheel with a metal damping ring embedded therein may be used.

According to the utility model, the area of the metal wire wheel 1 for cutting the magnetic induction wire is changed by utilizing the depth change of the magnet moving assembly screwed into the metal wire wheel 1, so that the resistance of the magnet moving assembly to the metal wire wheel 1 is automatically adjusted, namely, the greater the degree of the magnet moving assembly screwed into the metal wire wheel 1 is, the greater the area of the metal wire wheel 1 for cutting the magnetic induction wire is, the greater the resistance of the metal wire wheel 1 is, and otherwise, the smaller the resistance of the metal wire wheel 1 is.

When throwing a wire, the rotating speed of the metal wire wheel 1 is from high to low, when the wire is thrown, the metal wire wheel 1 rotates at a high speed, the magnet moving assembly can be automatically and gradually screwed into the metal wire wheel 1 under the action of centrifugal force, so that resistance can be automatically and stably gradually lifted, the problem of mess caused by overlarge initial speed rotating speed at the moment of throwing is avoided, when the wire is thrown for a period of time, the speed of the metal wire wheel 1 is reduced, the magnet moving assembly is rotated out from the metal wire wheel 1 until the metal wire wheel returns to the initial position under the action of the restoring force of the resetting assembly, so that resistance can be automatically and stably gradually reduced, and the throwing distance is further ensured as much as possible.

In some embodiments, the magnet moving assembly includes a moving ring 21 and a magnetic member 25, the moving ring 21 is sleeved on the base 22 and can perform spiral motion relative to the base 22, the moving ring 21 is provided with a magnetic member mounting groove 211, and the magnetic member 25 is fixed in the magnetic member mounting groove 211.

In the present embodiment, the magnetic member 25 is a magnet, and of course, in other embodiments, the magnetic member 25 is a magnet.

The magnetic member 25 may be fixed in the magnetic member mounting groove 211 by means of bonding or the like, and in order to enable formation of a stable magnetic induction line, a plurality of magnetic member mounting grooves 211 may be provided in the circumferential direction of the moving ring 21 so that a plurality of magnetic members 25 can be mounted.

As shown in fig. 1, 3 and 4, in the first embodiment, the base 22 is circumferentially provided with a spiral groove 221, and the movable ring 21 is provided with a protrusion 213 that mates with the spiral groove 221, and when the protrusion 213 moves along a path provided by the spiral groove 221, the movable ring 21 makes a spiral motion with respect to the base 22. The reset assembly comprises a limit cover plate 23 and a reset spring 24, wherein the limit cover plate 23 is fixedly connected with the base 22, a spring groove 212 is circumferentially arranged on one side of the movable ring 21, which is close to the limit cover plate 23, the reset spring 24 is installed in the spring groove 212, the limit cover plate 23 is provided with an embedded part 231 arranged in the spring groove 212, the embedded part 231 is provided with a squeezing part 2311, and when the movable ring 21 is stressed to move towards the direction, which is close to the metal wire wheel 1, the reset spring 24 is stressed and compressed under the action of the groove wall of the spring groove 212 and the squeezing part 2311.

The limiting cover plate 23 has the function of axially limiting the movable ring 21, the limiting cover plate 23 is fixedly connected with the base 22 in a bonding, clamping or screw connection mode and the like, and when the base 22 is forced to rotate, the limiting cover plate 23 synchronously rotates. The return spring 24 functions to provide a return force to the shift ring 21 to return it. When the return spring 24 is compressed by the force, the elastic force of the return spring 24 causes the moving ring 21 to move in a direction away from the wire wheel 1 until the return.

As shown in fig. 1, in some embodiments, the self-adaptive magnetic force retarder further includes a manual adjustment mechanism 3, where the manual adjustment mechanism 3 includes a side cover 34, a manual brake base 31, an adjustment knob 32, a spiral moving block 33, a limit spring 35, and a spring positioning column 36, where the manual brake base 31 is fixedly connected with the side cover 34, the spiral moving block 33 is fixedly connected with the moving ring 21, the adjustment knob 32 and the spiral moving block 33 are both sleeved on the manual brake base 31, contact surfaces of the adjustment knob 32 and the spiral moving block 33 are both spiral surfaces, the spring positioning column 36 is connected with the spiral moving block 33, and the limit spring 35 is sleeved between the spring positioning column 36 and the spiral moving block 33.

The spring positioning column 36 is used for limiting the movement of the spiral moving block 33.

The manual adjusting mechanism 3 and the magnetic retarding mechanism 2 are sleeved on the wheel shaft 11 of the metal wire wheel 1 through the arranged bearing 4, the spiral moving block 33 axially moves through stirring the adjusting knob 32, and the base 22 is driven to axially move by the movement of the spiral moving block 33, so that the initial resistance is adjusted.

The manual adjusting mechanism 3 is arranged to have the effect that the kinetic potential energy generated by different bait weights during throwing is different, so that the initial resistance can be adjusted according to the different bait weights through the manual adjusting mechanism 3.

Fig. 5 and fig. 6 show a part of the structure of the adaptive magnetic retarder according to the second embodiment of the present utility model, wherein the second embodiment is different from the first embodiment in the way of matching the limiting cover plate, the moving ring and the base, and specifically, in the second embodiment, the base 22A is circumferentially provided with a plurality of base inclined slits 6, and one side of the moving ring 21A near the base 22A is provided with a moving ring inclined bump 5 that is in spiral movement matching with the plurality of base inclined slits 6. The reset assembly comprises a limit cover plate 23A and a reset spring, wherein the limit cover plate 23A is fixedly connected with a base 22A, a spring groove 212A and a movable ring inclined notch 8 are formed in one side, close to the limit cover plate 23A, of the movable ring 21A, the reset spring is installed in the spring groove 212A, the limit cover plate 23A is provided with an embedded part arranged in the spring groove 212A and a limit cover plate inclined lug 7 in spiral movement fit with the movable ring inclined notch 8, the embedded part is provided with an extrusion part, and when the movable ring 21A is stressed to move towards a direction close to the metal wire wheel, the reset spring is stressed and compressed under the action of the groove wall of the spring groove 212A and the extrusion part.

Fig. 7 and 8 show a part of the structure of the adaptive magnetic retarder according to the third embodiment of the present utility model, in which the third embodiment is different from the first embodiment in that the manner of fitting the limiting cover plate, the moving ring and the base is different, specifically, in the third embodiment, the base 22B is circumferentially provided with a plurality of base inclined slits 6B, and one side of the moving ring 21B near the base 22B is provided with a moving ring inclined protrusion 5B that is in screw movement fit with the plurality of base inclined slits 6B; the reset assembly comprises a limit cover plate 23B and a reset spring 24B, wherein the limit cover plate 23B is fixedly connected with the base 22B, a step hole 9 is formed in the middle of the movable ring 21B, the reset spring 24B is arranged in the step hole 9, and when the movable ring 21B moves towards the direction close to the wire wheel, the reset spring 24B is stressed and compressed under the extrusion of the limit cover plate 23B.

The embodiment of the utility model also provides a fishing vessel, which comprises a fishing vessel main body and a self-adaptive magnetic retarding device, wherein the self-adaptive magnetic retarding device is connected with the fishing vessel main body. The self-adaptive magnetic force retarding device can adopt the structure of the first embodiment, the second embodiment or the third embodiment.

The fishing gear is provided with a fishing rod, a fishing line and the like, and the fishing gear is provided with a fishing rod, a fishing line and the like.

While the utility model has been described with reference to certain preferred embodiments, it will be understood by those skilled in the art that various changes and substitutions of equivalents may be made and equivalents will be apparent to those skilled in the art without departing from the scope of the utility model. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (9)

1. The self-adaptive magnetic force retarding device is characterized by comprising a metal wire wheel and a magnetic force retarding mechanism, wherein the magnetic force retarding mechanism is arranged on one side of the metal wire wheel and comprises a magnet moving assembly, a base and a resetting assembly, the magnet moving assembly is sleeved on the base and is used for generating a magnetic induction wire when the metal wire wheel rotates, and the magnet moving assembly automatically adjusts the depth screwed into the metal wire wheel under the rotating speed of the metal wire wheel and the action of the resetting assembly so as to automatically change the area of the metal wire wheel for cutting the magnetic induction wire, thereby automatically adjusting the resistance of the magnet moving assembly to the metal wire wheel; the magnet moving assembly comprises a moving ring and a magnetic piece, the moving ring is sleeved on the base and can do spiral motion relative to the base, the moving ring is provided with a magnetic piece mounting groove, and the magnetic piece is fixed in the magnetic piece mounting groove.

2. The adaptive magnetic retarder of claim 1, wherein the base is circumferentially arranged with a helical groove, the moving ring is provided with a protrusion that mates with the helical groove, and the moving ring is helically movable relative to the base as the protrusion moves along a path along which the helical groove is provided.

3. The self-adaptive magnetic force retarding device according to claim 1, wherein the reset assembly comprises a limit cover plate and a reset spring, the limit cover plate is fixedly connected with the base, a spring groove is circumferentially arranged on one side of the movable ring, which is close to the limit cover plate, the reset spring is installed in the spring groove, the limit cover plate is provided with an embedded part arranged in the spring groove, the embedded part is provided with an extrusion part, and when the movable ring is forced to move towards a direction close to the wire wheel, the reset spring is forced to be compressed under the action of the groove wall of the spring groove and the extrusion part.

4. The adaptive magnetic retarder of claim 1, wherein the base has a plurality of base tilt cuts circumferentially arranged thereon, and the moving ring has a moving ring tilt projection disposed on a side thereof adjacent to the base for screw-moving engagement with the plurality of base tilt cuts.

5. The self-adaptive magnetic force retarding device according to claim 4, wherein the reset assembly comprises a limit cover plate and a reset spring, the limit cover plate is fixedly connected with the base, a spring groove and a movable ring inclined notch are formed in one side, close to the limit cover plate, of the movable ring, the reset spring is installed in the spring groove, the limit cover plate is provided with an embedded portion arranged in the spring groove and a limit cover plate inclined lug which is in spiral movement fit with the movable ring inclined notch, the embedded portion is provided with an extrusion portion, and when the movable ring is forced to move towards a direction close to the metal wire wheel, the reset spring is forced to be compressed under the action of the groove wall of the spring groove and the extrusion portion.

6. The adaptive magnetic retarder of claim 1, wherein the base has a plurality of base inclined slits circumferentially arranged, and a side of the moving ring adjacent to the base has moving ring inclined protrusions that are in screw movement engagement with the plurality of base inclined slits; the reset assembly comprises a limit cover plate and a reset spring, the limit cover plate is fixedly connected with the base, a step hole is formed in the middle of the movable ring, the reset spring is arranged in the step hole, and when the movable ring moves in the direction close to the metal wire wheel, the reset spring is compressed under the extrusion of the limit cover plate under the stress.

7. The adaptive magnetic retarder of claim 1, further comprising a manual adjustment mechanism, the manual adjustment mechanism comprising a side cover, a manual brake base, an adjustment knob, a spiral moving block, a limit spring and a spring positioning column, the manual brake base being fixedly connected with the side cover, the spiral moving block being fixedly connected with the moving ring, the adjustment knob and the spiral moving block being both sleeved on the manual brake base, contact surfaces of the adjustment knob and the spiral moving block being spiral surfaces, the spring positioning column being connected with the spiral moving block, the limit spring being sleeved between the spring positioning column and the spiral moving block.

8. A fishing vessel comprising a fishing vessel body and an adaptive magnetic retarder according to any of claims 1-7, said adaptive magnetic retarder being connected to said fishing vessel body.

9. An angling rig comprising a fishing reel as claimed in claim 8.