CN218789975U - Fish control device - Google Patents

Abstract

The utility model is suitable for a fishing tackle field provides a accuse fish ware, include: a fish controller main body; a grab handle arranged at the tail end of the fish controller main body; the linkage clamping mechanism is arranged at the front end of the fish controller main body; the transmission mechanism is arranged on the fish controller main body and is in transmission connection with the linkage clamping mechanism; the transmission mechanism comprises: the transmission component is in transmission connection with the linkage clamping mechanism; the limiting piece is penetrated through the front end of the driven assembly and is inclined relative to the driving assembly under the thrust exerted by the driving assembly so as to clamp the driving assembly; the pushing assembly is fixed with the tail end of the transmission assembly and can push the transmission assembly to move forwards so as to open the linkage clamping mechanism; the trigger component is abutted against the lower end of the limiting part and can drive the limiting part to change from inclination to vertical, so that the transmission component is loosened and reset and drives the linkage clamping mechanism to close. The utility model discloses in, can block drive assembly when locating part slopes and make it unable backward movement for linkage fixture can keep opening.

Description

Fish control device

Technical Field

The utility model belongs to the fishing tackle field especially relates to a accuse fish ware.

Background

When a fisherman performs fishing with a fishing rod, the fisherman needs to take off the fish from the fishing rod. The fish controller is widely used in modern fishing activities, and has the functions of preventing the hand of a fisherman from being scratched by fish teeth, fish bones, fish hooks and the like when taking fish and reducing the damage to the fish.

Accuse fish ware includes that two are relative sets up and can open and shut the clamping jaw of centre gripping fish to and the actuating mechanism that two clamping jaws of drive opened and shut, it opens two clamping jaws through actuating mechanism, then puts into within the fish mouth with one of them clamping jaw, and the rethread actuating mechanism drives two clamping jaws closed, thereby with the fish centre gripping.

However, because the clamping jaws of the existing fish control device cannot be kept open when in use, when a fisher angles a fish and clamps the fish through the clamping jaws to take the fish, the fisher often needs to drive the two clamping jaws to open temporarily through a driving mechanism to clamp the fish, and the fish control device is inconvenient to use. Although the clamping jaws of the fish control device can be kept open in a flat state, the clamping jaws are folded or shaken due to slight collision or in the holding process, and the use experience of a fisher is poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a fish controller, aiming at solving the technical problem that the clamping jaw of the prior fish controller can not be kept open when in use.

The utility model discloses a realize like this, a accuse fish ware, include:

a fish controller main body;

a grab handle arranged at the tail end of the fish controller main body;

the linkage clamping mechanism is arranged at the front end of the fish controller main body; and

the transmission mechanism is arranged on the fish controller main body and is in transmission connection with the linkage clamping mechanism;

the transmission mechanism includes:

the transmission component is in transmission connection with the linkage clamping mechanism;

the limiting piece is penetrated by the front end of the transmission assembly and is inclined relative to the transmission assembly under the thrust applied by the transmission assembly so as to clamp the transmission assembly;

the pushing assembly is fixed at the tail end of the transmission assembly and can push the transmission assembly to move forwards so as to open the linkage clamping mechanism;

the trigger assembly is abutted against the lower end of the limiting part and can drive the limiting part to change from inclination to perpendicularity, so that the transmission assembly is loosened and reset and drives the linkage clamping mechanism to fold.

Still further, the transmission assembly includes:

the tail end of the rod body is fixed with the pushing assembly, and the front end of the rod body penetrates through the limiting piece;

the movable part is movably arranged at the front end of the rod body;

the limiting part is arranged at the tail end of the rod body; and

the first elastic element is sleeved on the rod body and located between the movable portion and the limiting portion, and the movable portion is abutted to the limiting portion by thrust applied by the first elastic element, so that the limiting portion is inclined relative to the rod body to clamp the rod body.

Still further, the stopper includes:

a limiting part which is abutted with the movable part;

the front end of the rod body penetrates through the through hole to be in transmission connection with the linkage clamping mechanism;

the embedded part is arranged at the top of the limiting part, and two sides of the embedded part are embedded on the fish control device main body; and

the touch part is arranged at the bottom of the limiting part and abuts against the trigger component.

Still further, the pushing assembly comprises:

a pusher body;

the pushing part is arranged at the top of the pushing part body;

the connecting part is connected with the rod body; and

the sliding part is arranged on the pushing part body, a sliding groove is formed in the tail end of the fish control device main body, the sliding part is embedded in the sliding groove in a sliding mode, the pushing part can push the sliding part to slide in the sliding groove, and meanwhile the rod body is pushed to move forwards in the fish control device main body.

Still further, the trigger assembly includes:

a trigger body;

the pulling part is arranged at the bottom of the trigger body;

the micro-motion part is arranged at the top of the trigger body;

the contact part is arranged at the front end of the trigger body, and the touch part is abutted against the contact part;

the fish control device comprises a fish control device body and is characterized in that a first embedded groove is formed in the fish control device body, a micro-motion portion is embedded in the first embedded groove, the micro-motion portion can move in the first embedded groove by pulling the pulling portion, and meanwhile the contact portion drives the limiting piece to change from being inclined relative to the rod body to be vertical so as to loosen the rod body.

Still further, the ganged clamp mechanism includes:

the clamping component is arranged at the front end of the fish controller main body and comprises a first clamping jaw and a second clamping jaw which are matched with each other; and

the linkage assembly is in transmission connection with the transmission mechanism and the clamping assembly and comprises a first connecting rod and a second connecting rod;

a first positioning shaft and a second positioning shaft are arranged at the front end of the fish controller main body at intervals, the middle part of the first clamping jaw is rotatably connected with the first positioning shaft, and the middle part of the second clamping jaw is rotatably connected with the second positioning shaft;

one end of the first connecting rod and one end of the second connecting rod are rotatably connected with the rod body through a rotating shaft, the other end of the first connecting rod is movably connected with the first clamping jaw, and the other end of the second connecting rod is movably connected with the second clamping jaw.

Furthermore, a first sliding groove extending from the tail end to the middle part of the first clamping jaw is formed in the first clamping jaw, a second sliding groove extending from the tail end to the middle part is formed in the second clamping jaw, a third sliding groove and a fourth sliding groove extending from the tail end to two sides of the front end are formed in the fish controller main body, and a guide groove is formed between the third sliding groove and the fourth sliding groove;

a first slidable sliding column is arranged in the first sliding groove and the third sliding groove, a second slidable sliding column is arranged in the second sliding groove and the fourth sliding groove, the first sliding column is rotatably connected with the first connecting rod, the second sliding column is rotatably connected with the second connecting rod, and the rotating shaft is movably embedded in the guide groove.

Furthermore, trigger the subassembly and still including locating the shielding piece of accuse fish ware main part bottom, the shielding piece is located the below of trigger the body, be equipped with first installation department on the trigger body, be equipped with the second installation department on the shielding piece, first installation department with be equipped with second elastic element between the second installation department, second elastic element is right trigger the body and apply forward pulling force.

Furthermore, a second embedded groove is formed in the fish controller main body and located above the movable portion, and the embedded portion is embedded in the second embedded groove;

the lower right corner of the second embedded groove is provided with a notch protruding towards the front end of the fish control device main body, and when the limiting part inclines relative to the rod body, at least part of the lower edge of the embedded part is located in the notch.

Furthermore, the fish control device main body comprises a first panel and a second panel which are oppositely arranged and matched with each other, and the linkage clamping mechanism and the transmission mechanism are arranged between the first panel and the second panel.

The embodiment of the utility model provides an in, the relative drive assembly of locating part has slope and two perpendicular states, when the relative drive assembly slope of locating part, the locating part can block drive assembly, drive assembly can't move backward and make linkage fixture keep at certain degree of opening, can use at any time, can open linkage fixture through the removal that promotes the subassembly, under the restriction of locating part, make linkage fixture keep any degree of opening that the user wants, be applicable to the fish of the various equidimensions of centre gripping and obtain, and when the locating part is changed to when perpendicular by the slope under the drive that triggers the subassembly, drive assembly is loosened and is reset and drives linkage fixture and fold simultaneously, the user can easily obtain the fish through accuse fish ware and press from both sides tightly, time saving and labor saving, and convenient operation.

Drawings

FIG. 1 is a perspective view of a fish controller according to an embodiment of the present invention;

FIG. 2 is a perspective view of another embodiment of the present invention to provide a fish controller;

fig. 3 is a schematic perspective exploded view of the fish controller provided by the embodiment of the present invention;

fig. 4 is a schematic perspective view of a limiting member according to an embodiment of the present invention;

fig. 5 is a schematic perspective view of a limiting element according to another embodiment of the present invention;

FIG. 6 is a schematic view of an embodiment of the present invention providing a structural assembly of the pusher body and the rod;

FIG. 7 is a schematic view of the structural assembly of the pusher body and the rod according to another embodiment of the present invention;

fig. 8 is a schematic perspective view of a trigger body according to an embodiment of the present invention;

fig. 9 is a schematic perspective view of a first panel according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Clamping jaw in current accuse fish ware can't keep opening when using, when the fishing person angles the fish and will come the centre gripping to get the fish through the clamping jaw, often need open two clamping jaws through the actuating mechanism drive temporarily and grasp the fish, be not convenient for use. Although the clamping jaws of the fish control device can be kept open in a flat state, the clamping jaws are folded or shaken due to slight collision or in the holding process, and the use experience of a fisher is poor.

This scheme has slope and perpendicular two states through establishing the locating part into relative drive assembly, and when the relative drive assembly slope of locating part, the locating part can block drive assembly, and drive assembly can't move backward and make linkage fixture can keep at certain degree of opening, can use at any time, and the operation is convenient.

Example one

Referring to fig. 1 to 3, the fish controller 100 of the present invention includes:

a fish controller main body 10;

a handle 20 arranged at the tail end of the fish controller main body 10;

a linkage clamping mechanism 30 arranged at the front end of the fish controller main body 10; and

the transmission mechanism 40 is arranged on the fish controller main body 10 and is in transmission connection with the linkage clamping mechanism 30;

the transmission mechanism 40 includes:

the transmission component 41 is in transmission connection with the linkage clamping mechanism 30;

the limiting piece 42 is penetrated through the front end of the transmission assembly 41, and the limiting piece 42 is inclined relative to the transmission assembly 41 under the thrust applied by the transmission assembly 41 so as to clamp the transmission assembly 41;

a pushing component 43 fixed with the end of the transmission component 41, wherein the pushing component 43 can push the transmission component 41 to move forwards to open the linkage clamping mechanism 30; and

the trigger assembly 44 is abutted against the lower end of the limiting member 42, and the trigger assembly 44 can drive the limiting member 42 to change from the inclined state to the vertical state, so that the transmission assembly 41 is released and reset and drives the linkage clamping mechanism 30 to fold.

The utility model discloses an in accuse fish ware 100, the relative drive assembly 41 of locating part 42 has slope and two perpendicular states, when the relative drive assembly 41 of locating part 42 inclines, locating part 42 can block drive assembly 41, drive assembly 41 can't move backward and make linkage fixture 30 can keep at certain degree of opening, can use at any time, can open linkage fixture 30 through the removal that promotes subassembly 43, under the restriction of locating part 42, make linkage fixture 30 can keep at any degree of opening that the user wanted, be applicable to the fish of the various equidimensions of centre gripping and obtain, and when locating part 42 is become perpendicular by the slope under the drive that triggers subassembly 44, drive assembly 41 is loosened and resets and drives linkage fixture 30 and fold simultaneously, the user can easily obtain the fish through accuse fish ware 100 and press from both sides tightly, time saving and labor saving, and convenient operation.

In this embodiment, the fish controller body 10 is a mounting and carrying structure of the fish controller 100, the handle 20, the linkage clamping mechanism 30 and the transmission mechanism 40 are all mounted on the fish controller body 10, and the handle 20 and the fish controller body 10 are inclined at a certain angle to make the whole fish controller 100 substantially in a gun shape, so that when the handle 20 is held by the palm of the user, the position of the thumb is just above the pushing component 43, and the pushing component 43 is easily touched, so that the user can operate the pushing component 43 through the thumb to open the linkage clamping mechanism 30.

More, the surface of the grip 20 is further provided with a friction structure for increasing the friction between the palm of the user's hand and the fish controller 100, so that the user can hold the fish controller 100 more stably. The friction structure may be a structure that can provide a certain friction force on the handle 20, such as a plastic sleeve, a rubber sleeve, etc., or a texture, a protrusion, a depression, etc. on the surface of the handle 20. The above description of the friction structure is merely exemplary and should not be construed as limiting the present invention.

The linkage clamping mechanism 30 of the present embodiment comprises a clamping structure located at the foremost end of the fish controller 100 and a linkage structure located between the clamping structure and the transmission mechanism 40 for transmission connection, that is, in the transmission mechanism 40, the transmission assembly 41 is in transmission connection with the clamping structure through the linkage structure, the transmission assembly 41 performs corresponding actions when being subjected to the driving force provided by the pushing assembly 43 or the triggering assembly 44, and the linkage structure transmits the actions of the transmission assembly 41 to the clamping structure to enable the clamping structure to perform opening and closing actions to clamp the fish. In addition to the technical solution shown in this embodiment, the transmission relationship and structure among the transmission mechanism 40, the linkage structure and the clamping structure can refer to the related transmission relationship and structure in the existing fish controller 100.

Specifically, under the condition that the linkage clamping mechanism 30 is not opened or is opened to a certain extent, the limiting member 42 is inclined relative to the transmission assembly 41 by the pushing force provided by the transmission assembly 41, at this time, the limiting member 42 limits the position of the transmission assembly 41 and blocks the transmission assembly 41, the transmission assembly 41 cannot move backwards but can only move forwards, so that the linkage clamping mechanism 30 can be kept at a certain opening extent or can be continuously opened to the maximum extent, and the opening extent of the linkage clamping mechanism 30 can meet the specific requirements of a user when the user clamps fish.

By utilizing the lever principle, the trigger assembly 44 is abutted against the lower end of the limiting piece 42, when the linkage clamping mechanism 30 needs to be closed to clamp the fish catcher, the limiting piece 42 can be driven to change from the inclined state to the vertical state only by pulling the trigger assembly 44, and the limiting piece 42 releases the transmission assembly 41 without limiting the position of the transmission assembly again within a short time when the limiting piece 42 changes to the vertical state, at this time, the transmission assembly 41 can move backwards to reset, the limiting piece 42 is restored to the inclined state by the thrust exerted by the transmission assembly 41 again, meanwhile, the transmission assembly 41 drives the linkage clamping mechanism 30 to close to clamp the fish catcher, so that a user can easily clamp the fish catcher without using much force, and the operation is convenient.

It can be understood that when the limiting member 42 tilts relative to the transmission assembly 41, although the transmission assembly 41 can still move forward after being pushed by the pushing assembly 43, a larger pushing force is required to be provided by the user to overcome the resistance, in order to enable the user to easily push the pushing assembly 43 to open the linkage clamping mechanism 30 to a desired extent, in this embodiment, the user may first pull the trigger assembly 44 to make the limiting member 42 perpendicular relative to the transmission assembly 41, so that the limiting member 42 does not obstruct the transmission assembly 41, then push the transmission assembly 41 to easily open the linkage clamping mechanism 30 to a desired extent, and then release the trigger assembly 44 to make the limiting member 42 return to the tilted state to re-lock the transmission assembly 41, so that the linkage clamping assembly 31 can be kept at the current open extent.

In this embodiment, the pushing component 43 and the triggering component 44 are respectively located at the top and the bottom of the fish controller main body 10, and are respectively fixed to the end of the transmission component 41 and abutted against the lower end of the limiting component 42, which conforms to the use habit and ergonomic design of users.

For example, when the user holds the fish controller 100, the pushing assembly 43 can be controlled by the action of the thumb, for example, the pushing assembly 43 moves towards the front end of the fish controller 100 to drive the transmission assembly 41 to move forward to open the linkage clamping mechanism 30, and the triggering assembly 44 can be controlled by the action of the index finger, for example, the triggering assembly 44 is pulled to drive the form change of the limiting member 42 to close the linkage clamping mechanism 30.

Example two

Further, with continued reference to fig. 1-3, the transmission assembly 41 includes:

a rod body 411 with a tail end fixed with the pushing component 43 and a front end penetrating through the limiting component 42;

a movable part 412 movably provided at the front end of the rod 411;

a limiting part 413 arranged at the tail end of the rod body 411; and

the first elastic element 414 is sleeved on the rod 411 and located between the movable portion 412 and the limiting portion 413, and the movable portion 412 is abutted against the limiting member 42 by a thrust force applied by the first elastic element 414, so that the limiting member 42 inclines relative to the rod 411 to lock the rod 411.

Specifically, the front end of the rod 411 passes through the movable portion 412 and then penetrates through the limiting member 42, and can move relative to the movable portion 412 and the limiting member 42, because the end of the rod 411 is fixed to the pushing assembly 43, and the front end penetrates through the limiting member 42 and then is in transmission connection with the linkage clamping mechanism 30, when the pushing assembly 43 is pushed, the rod 411 can be pushed to move, so that the linkage clamping mechanism 30 is opened, and when the rod 411 returns to the initial position, the linkage clamping mechanism 30 is closed.

In the process of pushing the pushing assembly 43, the pushing assembly 43 drives the rod 411 and the limiting portion 413 to move forward, the rod 411 pushes the linkage clamping mechanism 30 to open, meanwhile, the limiting portion 413 compresses the first elastic element 414 toward the movable portion 412, although the movable portion 412 is subjected to the pushing force generated by the compression of the first elastic element 414, the movable portion 412 cannot slide out of the rod 411 under the limitation of the limiting member 42, but applies the pushing force to the limiting member 42, so that the limiting member 42 is kept in an inclined state relative to the rod 411, at this time, the limiting member 42 blocks the rod 411, and the rod 411 cannot move backward, and therefore, the rod 411 cannot be pushed back to the original position under the elastic force of the first elastic element 414.

When the position-limiting element 42 is in the vertical state, the rod 411 is released by the position-limiting element 42, the elastic force generated by the first elastic element 414 after being compressed is released rapidly, the limiting portion 413, the rod 411 and the pushing element 43 are pushed backward to the end rapidly, and at this time, the transmission element 41 is reset, and the linking and clamping mechanism 30 is closed.

EXAMPLE III

Further, referring to fig. 1, fig. 3, fig. 4 and fig. 5, the position-limiting element 42 includes:

a stopper 421 abutting against the movable part 412;

a through hole 422 arranged in the limiting part 421, wherein the front end of the rod body 411 passes through the through hole 422 to be in transmission connection with the linkage clamping mechanism 30;

an embedding part 423 arranged at the top of the limiting part 421, wherein two sides of the embedding part 423 are embedded on the fish controller main body 10; and

the trigger part 424 is disposed at the bottom of the position-limiting part 421, and the trigger part 424 abuts against the trigger assembly 44.

Specifically, the limiting portion 421 is located in the middle of the limiting member 42, and is a portion of the limiting member 42 abutting against the movable portion 412, because the top (the embedding portion 423) of the limiting member 42 is embedded on the fish control device main body 10, and the bottom (the touching portion 424) is movable, when the limiting portion 421 is abutted against by the movable portion 412 and receives a thrust, the limiting member 42 is inclined relative to the rod 411, and at this time, the top edge and the bottom edge of the through hole 422 are respectively in contact with the top and the bottom of the rod 411, so as to limit the backward movement of the rod 411, and the linkage clamping mechanism 30 is kept in an open state.

The embedding portion 423 and the touching portion 424 are both movable within a certain range, rather than being completely fastened and locked, the shape of the through hole 422 is adapted to the shape of the rod 411, and the area of the through hole 422 is designed to be slightly larger than the cross-sectional area of the rod 411, so that the limiting member 42 can slightly move under the penetration of the rod 411 to change between being inclined and perpendicular with respect to the rod 411.

The embedding part 423 at the top of the limiting part 42 is embedded in the fish controller main body 10, the limiting part 421 at the middle abuts against the movable part 412, the touch part 424 at the bottom abuts against the trigger assembly 44, based on the above position relationship, the embedding part 423, the limiting part 421 and the touch part 424 form a lever structure with the rod body 411, thus, the touch part 424 can be pushed to be in the same vertical plane with the limiting part 421 and the embedding part 423 only by pulling the trigger assembly 44 with a small force, i.e. the limiting part 42 is changed to be in a state vertical to the rod body 411, at this time, the top edge and the bottom edge of the through hole 422 are separated from the top and the bottom of the rod body 411 at the same time, and the rod body 411 is released, so that the rod body 411 can move backwards to reset.

It should be noted that the state of the limiting element 42 being perpendicular to the rod 411 in the present embodiment is understood as a state where the top edge and the bottom edge of the through hole 422 are separated from the top and the bottom of the rod 411, and is understood as a state where the limiting element 42 is substantially perpendicular to the rod 411.

Example four

Further, referring to fig. 1, fig. 3, fig. 6 and fig. 7, the pushing assembly 43 includes:

a pusher body 431;

a pushing part 432 arranged at the top of the pusher body 431;

a connecting portion 433 connected to the rod 411; and

the sliding part 434 is arranged on the pushing part body 431, the sliding groove 11 is arranged at the tail end of the fish controller main body 10, the sliding part 434 is slidably embedded in the sliding groove 11, the pushing part 432 can push the sliding part 434 to slide in the sliding groove 11, and meanwhile, the rod body 411 is pushed to move forwards in the fish controller main body 10.

Specifically, the pusher body 431 is an installation and bearing structure of each structure in the pushing assembly 43, and all the structures in the pushing assembly 43 are disposed on the pusher body 431. The pushing part 432 is arranged at the top of the pushing part body 431 and is positioned at the top of the fish controller 100, and the surface of the pushing part body 431 is a rough friction surface, so that the friction force between a finger of a user and the pushing part body can be increased, and the pushing of the user is facilitated.

When a user normally holds the handle 20, the position of the thumb is easily extended to the pushing portion 432 and applies a pushing force to push the pusher body 431 to move forward, and meanwhile, the pusher body 431 drives the connecting portion 433 connected with the rod 411 to move so as to push the rod 411 to move forward, thereby realizing the opening of the linked clamping mechanism 30 at the front end.

In order to ensure that the pushing member body 431 can move relative to the fish controller main body 10, a sliding portion 434 embedded in the sliding groove 11 of the fish controller main body 10 is arranged on the pushing member body 431, the sliding groove 11 extends from the tail end to the front end of the fish controller main body 10, when the pushing portion 432 is pushed, the pushing portion 432 is forced to move forward under the guiding of the sliding groove 11 to the sliding portion 434, and the forward movement of the rod body 411 is realized to open the linkage clamping mechanism 30.

Furthermore, in the present embodiment, there are 2 sliding portions 434, and 2 sliding portions 434 are respectively located at the front end and the tail end of the pusher body 431, so that when the pusher body 431 slides under the action of an external force, the 2 sliding portions 434 make the sliding of the pusher body 431 more stable. Of course, in other embodiments, the number of the sliding portions 434 may be other, and the pushing member body 431 may be provided on the premise of ensuring the normal sliding.

Referring to fig. 1 and 3, fig. 4 and 5, and fig. 6 and 7, in the present embodiment, there are two structural forms and combinations between the rod 411, the pusher body 431, and the limiting member 42:

one is as follows: the rod 411 shown in fig. 3 is cylindrical, the pushing member body 431 shown in fig. 7 and the rod 411 are of a split structure, the bottom of the pushing member body 431 (i.e., the connecting portion 433) is fixedly connected with the end of the rod 411 through a fastener, the through hole 422 on the limiting member 42 shown in fig. 4 is circular, so that the rod 411 can pass through the limiting member 42 to normally move to drive the linkage clamping mechanism 30 to open and close, when any one of the rod 411 and the pushing member body 431 is damaged, the rod 411 and the pushing member body 431 can be directly replaced with a new one without replacing the whole structure, and the pushing member body 431, the limiting member 42 and the rod 411 shown in fig. 2, 4 and 7 form a component of the transmission mechanism 40 of the fish controller 100 according to an embodiment of the present invention;

the second step is as follows: the rod 411 shown in fig. 1 is rectangular, and the pusher body 431 shown in fig. 6 and the rod 411 are integrated, that is, the connecting portion 433 and the end of the rod 411 are the same structure, and the through hole 422 on the limiting member 42 shown in fig. 5 is rectangular, so as to ensure that the rod 411 can pass through the limiting member 42 to normally move to drive the linkage clamping mechanism 30 to open and close.

The utility model discloses in, two kinds of structural configuration above-mentioned between body of rod 411 and impeller body 431 can be applied to according to concrete demand and use in accuse fish ware 100.

EXAMPLE five

Further, referring to fig. 1, 3 and 8, the trigger element 44 includes:

a trigger body 441;

a pulling part 442 provided at the bottom of the trigger body 441;

a jogging part 443 arranged on the top of the trigger body 441;

a contact part 444 arranged at the front end of the trigger body 441, wherein the trigger part 424 abuts against the contact part 444;

the fish control device body 10 is provided with a first insertion groove 12, the micro-motion portion 443 is inserted into the first insertion groove 12, the pulling portion 442 is pulled to move the micro-motion portion 443 in the first insertion groove 12, and meanwhile the contact portion 444 drives the limiting member 42 to tilt relative to the rod 411 to be vertical, so as to loosen the rod 411.

Specifically, the trigger body 441 is an installation and bearing structure of each structure in the trigger assembly 44, and the main structure of the trigger assembly 44 is disposed on the trigger body 441. The pulling part 442 is disposed at the bottom of the trigger body 441 and is located at the bottom of the fish controller 100, and the surface of the pulling part 442 is rough, so as to increase the friction force between the pulling part 442 and the fingers of the user, thereby facilitating pulling of the user. The contact portion 444 is in the shape of a barb, and when the user pulls the pulling portion 442 toward the rear of the fish controller 100, the contact portion 444 moves toward the rear of the fish controller 100, and the position-limiting member 42 is pulled toward the rear of the fish controller 100 to be changed to a vertical state.

When the user normally holds the handle 20, the position of the other fingers, such as the index finger, is easy to extend to the pulling portion 442 and pull it backward, the pulling portion 442 drives the contact portion 444 to push the trigger portion 424 of the position-limiting member 42 backward through the trigger body 441, so that the position-limiting member 42 is changed from the inclined state to the vertical state, and at this time, the rod 411 is released and drives the linking and clamping mechanism 30 to fold while being reset under the pushing of the first elastic element 414.

In order to ensure that the trigger body 441 can enable the contact portion 444 to push the touching portion 424 to enable the limiting member 42 to change from being inclined to being relatively perpendicular with respect to the rod 411 when the trigger body 442 is pulled, a micro-motion portion 443 is fixedly disposed on the trigger body 441, an end of the micro-motion portion 443 is embedded in the first embedded groove 12, and a cross-sectional area of an end of the micro-motion portion 443 is smaller than that of the first embedded groove 12, so that the micro-motion portion 443 can move in the first embedded groove 12.

Moreover, the distance that the micro-moving portion 443 can move in the first insertion groove 12 is substantially equal to the moving distance of the touching portion 424 when the limiting member 42 changes from the inclined state to the vertical state, so that the limiting member 42 is prevented from being excessively pulled due to an excessively long moving distance of the micro-moving portion 443, and the blocking of the rod body 411 due to the limiting member 42 being unable to change to the vertical state due to an excessively short moving distance of the micro-moving portion 443 can also be avoided.

Furthermore, in the embodiment, the number of the micro-moving portions 443 is 2, and the 2 micro-moving portions 443 are respectively located at the front end and the end of the trigger body 441, so that when the trigger body 441 is moved by a finger of a user to perform micro-moving, the 2 micro-moving portions 443 make the micro-moving of the trigger body 441 more stable and the situation of skew is not easy to occur.

Of course, in other embodiments, the number of the micro-motion portions 443 may be other, and the trigger body 441 may be set on the premise of ensuring the normal micro-motion.

EXAMPLE six

Further, referring to fig. 1 and 3, the linkage clamping mechanism 30 includes:

the clamping component 31 is arranged at the front end of the fish controller main body 10, and the clamping component 31 comprises a first clamping jaw 311 and a second clamping jaw 312 which are matched with each other; and

the linkage assembly 32 is in transmission connection with the transmission mechanism 40 and the clamping assembly 31, and the linkage assembly 32 comprises a first connecting rod 321 and a second connecting rod 322;

a first positioning shaft 313 and a second positioning shaft 314 are arranged at the front end of the fish controller main body 10 at intervals, the middle part of the first clamping jaw 311 is rotatably connected with the first positioning shaft 313, and the middle part of the second clamping jaw 312 is rotatably connected with the second positioning shaft 314;

one end of the first connecting rod 321 and one end of the second connecting rod 322 are rotatably connected to the rod 411 through the rotating shaft 323, the other end of the first connecting rod 321 is movably connected to the first clamping jaw 311, and the other end of the second connecting rod 322 is movably connected to the second clamping jaw 312.

The clamping assembly 31 in this embodiment is the above clamping structure, the linkage assembly 32 is the above linkage assembly 32, the front ends of the first clamping jaw 311 and the second clamping jaw 312 are mutually matched to clamp the fish mouth, and the two clamping jaws are stacked in a crossed manner near the tail end to form a shape similar to a pair of scissors.

When the rod body 411 is pushed by the pusher body 431 to move towards the front end of the fish controller 100, the first connecting rod 321 and the first clamping jaw 311 rotate, the rear end of the first clamping jaw 311 rotates around the first positioning shaft 313, the second connecting rod 322 and the second clamping jaw 312 rotate, the rear end of the second clamping jaw 312 rotates around the second positioning shaft 314, and the rotation direction of the rear end of the first clamping jaw 311 is opposite to that of the rear end of the second clamping jaw 312, so that the rotation directions of the front ends of the first clamping jaw 311 and the second clamping jaw 312 are opposite, and the front ends of the first clamping jaw 311 and the second clamping jaw 312 are gradually opened. The larger the rotation angle of the first jaw 311 and the second jaw 312 is, the larger the distance between the front ends of the first jaw and the second jaw is, and the larger the fish suitable for catching.

The first positioning shaft 313 and the second positioning shaft 314 are arranged at intervals and symmetrically with respect to the middle shaft of the fish controller body 10, so that the distance between the tail ends of the first clamping jaw 311 and the second clamping jaw 312 is shorter, and the first clamping jaw is closer to the central shaft of the fish controller body 10, and therefore, when the rod body 411 (the first connecting rod 321/the second connecting rod 322) acts on the tail ends of the first clamping jaw 311 and the second clamping jaw 312, the rotation strokes of the tail ends of the first clamping jaw 311 and the second clamping jaw 312 are longer.

If the first jaw 311 and the second jaw 312 rotate around the same positioning shaft, the distance between the tail ends of the first jaw 311 and the second jaw 312 is larger, and when the rod 411 (the first link 321/the second link 322) acts on the tail ends of the first jaw 311 and the second jaw 312, the distance between the tail ends of the first jaw 311 and the second jaw 312 is already larger, so that the rotation stroke is smaller, and the opening degree of the front ends of the first jaw 311 and the second jaw 312 is affected.

EXAMPLE seven

Further, referring to fig. 1, 3 and 9, the first clamping jaw 311 is provided with a first sliding groove 3111 extending from the tail end to the middle part, the second clamping jaw 312 is provided with a second sliding groove 3121 extending from the tail end to the middle part, the fish controller body 10 is provided with a third sliding groove 13 and a fourth sliding groove 14 extending from the tail end to the two sides of the front end, and a guide groove 15 is provided between the third sliding groove 13 and the fourth sliding groove 14;

a first sliding column 324 capable of sliding is arranged in the first sliding groove 3111 and the third sliding groove 13, a second sliding column 325 capable of sliding is arranged in the second sliding groove 3121 and the fourth sliding groove 14, the first sliding column 324 is rotatably connected with the first connecting rod 321, the second sliding column 325 is rotatably connected with the second connecting rod 322, and the rotating shaft 323 is movably embedded in the guide groove 15.

Specifically, the first sliding groove 3111 and the second sliding groove 3121 are through grooves, the first sliding column 324 can pass through the first sliding groove 3111, the second sliding column 325 can pass through the second sliding groove 3121, the first connecting rod 321 is rotatably connected to the tail end of the first clamping jaw 311 through the first sliding column 324, the second connecting rod 322 is rotatably connected to the tail end of the second clamping jaw 312 through the second sliding column 325, and when the rod body 411 moves, the rotating shaft 323 moves in the guide groove 15 at the same time, so as to push the first connecting rod 321 and the second connecting rod 322 to move.

The third sliding chute 13 and the fourth sliding chute 14 extend from the tail end of the fish controller body 10 to both sides of the front end, so that the third sliding chute 13 and the fourth sliding chute 14 are in an approximate shape of a Chinese character 'ba', the first sliding column 324 can slide in the first sliding chute 3111 and the third sliding chute 13, and can also rotate in the first sliding chute 3111 and the third sliding chute 13, and the second sliding column 325 can slide in the second sliding chute 3121 and the fourth sliding chute 14, and can also rotate in the second sliding chute 3121 and the fourth sliding chute 14.

In this embodiment, the third sliding slot 13 and the fourth sliding slot 14 play a role in limiting, so that the first sliding column 324 can move along the third sliding slot 13, the second sliding column 325 can move along the fourth sliding slot 14, under the driving of the rod 411 and the first connecting rod 321, the first sliding column 324 can slide in the first sliding slot 3111 and the third sliding slot 13, so as to push the tail end of the first clamping jaw 311 to rotate around the first positioning shaft 313, and under the driving of the rod 411 and the second connecting rod 322, the second sliding column 325 can slide in the second sliding slot 3121 and the fourth sliding slot 14, so as to push the tail end of the second clamping jaw 312 to rotate around the second positioning shaft 314, so as to gradually open the front ends of the first clamping jaw 311 and the second clamping jaw 312.

More importantly, when the front ends of the first clamping jaw 311 and the second clamping jaw 312 open to clamp a fish, the rod body 411 does not drive the first positioning shaft 313 and the second positioning shaft 314 forward any more, and the fish can break loose, at this time, the front ends of the first clamping jaw 311 and the second clamping jaw 312 are under the action of external force and tend to continue to open outward, so that the tail ends of the first clamping jaw 311 and the second clamping jaw 312 can rotate in opposite directions, but because the first sliding column 324 is limited by the side wall of the third sliding groove 13, the second sliding column 325 is limited by the side wall of the fourth sliding groove 14, and neither the first sliding column 324 nor the second sliding column 325 can rotate when the front ends of the first clamping jaw 311 and the second clamping jaw 312 are under the action of external force, it can be ensured that the fish cannot break loose under the clamping of the first clamping jaw 311 and the second clamping jaw 312 when clamping the fish, and the practicability of the fish controller 100 is ensured.

Example eight

Furthermore, referring to fig. 1 and 3, the trigger assembly 44 further includes a shielding member 445 disposed at the bottom of the fish control device main body 10, the shielding member 445 is disposed below the trigger body 441, the trigger body 441 is provided with a first mounting portion 4411, the shielding member 445 is provided with a second mounting portion 4451, a second elastic element 446 is disposed between the first mounting portion 4411 and the second mounting portion 4451, and the second elastic element 446 applies a forward pulling force to the trigger body 441.

Specifically, when the user pulls the pulling portion 442 to make the trigger body 441 drive the micro-moving portion 443 to make the micro-moving portion 443 located at the edge of the first insertion groove 12, and the contact portion 444 pushes the trigger portion 424 to make the limiting member 42 change from the inclined state to the vertical state, in order to ensure that the micro-moving portion 443 and the trigger portion 424 (the limiting member 42) can be reset to the original position for the next triggering operation, in this embodiment, the second elastic element 446 acts on the trigger body 441, and the second elastic element 446 applies a forward pulling force to the trigger body 441, so that the trigger body 441 drives the micro-moving portion 443 and the contact portion 444 to return to the original position, and the trigger portion 424 cannot receive the pushing force of the contact portion 444, so that the limiting member 42 is also in the inclined state, and recovers the limiting effect on the rod body 411. Moreover, the second elastic element 446 is provided to allow a user to have a significant feedback when pulling the pulling portion 442, so that the user can operate the fish controller 100 conveniently.

The shielding piece 445 is disposed below the trigger body 441, on one hand, a structural basis is provided, and the second elastic element 446 is disposed, and on the other hand, the shielding piece 445 shields the second elastic element 446 from a space between itself and the trigger body 441, so that the problem that the space where the second elastic element 446 is located enters impurities or other objects to affect the elasticity of the second elastic element 446 can be avoided.

Example nine

Further, with continuing reference to fig. 1, fig. 3 and fig. 9, the fish controller body 10 is provided with a second insertion groove 16 above the movable portion 412, and the insertion portion 423 is inserted into the second insertion groove 16; the lower right corner of the second inserting groove 16 is provided with a notch 171 protruding toward the front end of the fish controller main body 10, and when the limiting member 42 inclines relative to the rod 411, the lower edge of the inserting portion 423 is at least partially located in the notch 171.

Specifically, the second insertion groove 16 is a blind groove, the end of the side of the insertion portion 423 is movably inserted into the second insertion groove 16, so that the installation of the limiting member 42 on the fish controller main body 10 is realized, and the size of the second insertion groove 16 is slightly larger than that of the end of the side of the insertion portion 423, so that the movement of the insertion portion 423 in the second insertion groove 16 is realized, and further, the change of the limiting member 42 between the inclined state and the vertical state is realized.

Since the insertion portion 423 performs a turning motion from top to bottom and from back to front in the first insertion groove 12 when the position-limiting element 42 changes between the inclined state and the vertical state, and the lower portion of the insertion portion 423 is a right-angle structure with a large sharpness, if the sidewall of the lower portion of the second insertion groove 16 close to the insertion portion 423 is a plane, the insertion portion 423 is easily abutted against the second insertion groove 16 to be locked when the position-limiting element 423 turns to change the state, so that the position-limiting element 42 cannot be changed between the inclined state and the vertical state, that is, the position-limiting element 411 cannot be locked, and the first clamping jaw 311 and the second clamping jaw 312 cannot be kept open.

For the above reasons, in the present embodiment, the notch 171 protruding toward the front end of the fish control device main body 10 is disposed at the lower right corner of the second inserting groove 16, and when the limiting member 42 tilts with respect to the rod 411, the lower edge of the inserting portion 423 is at least partially located in the notch 171, so that when the limiting member 42 changes between the tilting state and the vertical state, there is enough moving space between the lower edge of the inserting portion 423 and the second inserting groove 16, and the limiting member 42 is not locked by the second inserting groove 16, thereby ensuring the normal function of the limiting member 42.

Example ten

Further, referring to fig. 1 to 3 and fig. 9, the fish controller body 10 includes a first panel 17 and a second panel 18 disposed opposite to each other and cooperating with each other, and the linkage clamping mechanism 30 and the transmission mechanism 40 are disposed between the first panel 17 and the second panel 18.

Specifically, the first panel 17 and the second panel 18 in this embodiment have the same structure and are symmetrically disposed, and the third sliding slot 13 and the fourth sliding slot 14 are disposed at opposite positions on two opposite side surfaces of the first panel 17 and the second panel 18, and the third sliding slot 13 and the fourth sliding slot 14 are blind slots. The two oppositely arranged third sliding chutes 13 can limit the first sliding posts 324 in the third sliding chutes 13 to prevent the first sliding posts 324 from falling out of the third sliding chutes 13, and the two oppositely arranged fourth sliding chutes 14 can limit the second sliding posts 325 in the fourth sliding chutes 14 to prevent the second sliding posts 325 from falling out of the fourth sliding chutes 14, so that the structural stability of the fish controller 100 is ensured.

Moreover, two ends of the first sliding column 324 are respectively embedded into the two third sliding grooves 13, and two ends of the second sliding column 325 are respectively embedded into the fourth sliding grooves 14, so that the first sliding column 324 and the second sliding column 325 slide more stably, the rod body 411 drives the first connecting rod 321 and the second connecting rod 322 to move, the first connecting rod 321 and the second connecting rod 322 move to drive the first clamping jaw 311 and the second clamping jaw 312 to open and close more smoothly, and the using effect of the fish controller 100 is ensured.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (10)

1. A fish control device, comprising:

a fish controller main body;

a grab handle arranged at the tail end of the fish controller main body;

the linkage clamping mechanism is arranged at the front end of the fish controller main body; and

the transmission mechanism is arranged on the fish controller main body and is in transmission connection with the linkage clamping mechanism;

the transmission mechanism includes:

the transmission component is in transmission connection with the linkage clamping mechanism;

the limiting piece is penetrated by the front end of the transmission assembly and is inclined relative to the transmission assembly under the thrust applied by the transmission assembly so as to clamp the transmission assembly;

the pushing assembly is fixed at the tail end of the transmission assembly and can push the transmission assembly to move forwards so as to open the linkage clamping mechanism;

the trigger assembly is abutted against the lower end of the limiting part and can drive the limiting part to change from inclination to perpendicularity, so that the transmission assembly is loosened and reset and drives the linkage clamping mechanism to fold.

2. The fish controller of claim 1, wherein the transmission assembly comprises:

the tail end of the rod body is fixed with the pushing assembly, and the front end of the rod body penetrates through the limiting piece;

the movable part is movably arranged at the front end of the rod body;

the limiting part is arranged at the tail end of the rod body; and

the first elastic element is sleeved on the rod body and located between the movable portion and the limiting portion, and the movable portion is abutted against the limiting piece under the action of thrust applied by the first elastic element, so that the limiting piece inclines relative to the rod body and the rod body is clamped.

3. The fish controller of claim 2, wherein the stop comprises:

a limiting part which is abutted with the movable part;

the front end of the rod body penetrates through the through hole to be in transmission connection with the linkage clamping mechanism;

the embedded part is arranged at the top of the limiting part, and two sides of the embedded part are embedded on the fish control device main body; and

the touch part is arranged at the bottom of the limiting part and abuts against the trigger component.

4. The fish controller of claim 2, wherein the pushing assembly comprises:

a pusher body;

the pushing part is arranged at the top of the pushing part body;

the connecting part is connected with the rod body; and

the sliding part is arranged on the pushing part body, a sliding groove is formed in the tail end of the fish control device main body, the sliding part is embedded in the sliding groove in a sliding mode, the pushing part can push the sliding part to slide in the sliding groove, and meanwhile the rod body is pushed to move forwards in the fish control device main body.

5. The fish controller of claim 3, wherein the trigger assembly comprises:

a trigger body;

the pulling part is arranged at the bottom of the trigger body;

the micro-motion part is arranged at the top of the trigger body;

the contact part is arranged at the front end of the trigger body, and the touch part is abutted against the contact part;

the fish control device comprises a fish control device body and is characterized in that a first embedded groove is formed in the fish control device body, a micro-motion part is embedded in the first embedded groove, the micro-motion part can move in the first embedded groove by pulling the pulling part, and meanwhile the contact part drives the limiting part to change from being inclined relative to the rod body to be vertical so as to loosen the rod body.

6. The fish controller of claim 2, wherein the linkage clamp mechanism comprises:

the clamping assembly is arranged at the front end of the fish controller main body and comprises a first clamping jaw and a second clamping jaw which are matched with each other; and

the linkage assembly is in transmission connection with the transmission mechanism and the clamping assembly and comprises a first connecting rod and a second connecting rod;

a first positioning shaft and a second positioning shaft are arranged at the front end of the fish controller main body at intervals, the middle part of the first clamping jaw is rotatably connected with the first positioning shaft, and the middle part of the second clamping jaw is rotatably connected with the second positioning shaft;

the one end of first connecting rod the one end of second connecting rod with the body of rod rotates through the pivot to be connected, the other end of first connecting rod with first clamping jaw swing joint, the other end of second connecting rod with second clamping jaw swing joint.

7. The fish controller according to claim 6, wherein the first jaw is provided with a first sliding groove extending from the tail end to the middle part, the second jaw is provided with a second sliding groove extending from the tail end to the middle part, the fish controller body is provided with a third sliding groove and a fourth sliding groove extending from the tail end to the two sides of the front end, and a guide groove is arranged between the third sliding groove and the fourth sliding groove;

a first slidable sliding column is arranged in the first sliding groove and the third sliding groove, a second slidable sliding column is arranged in the second sliding groove and the fourth sliding groove, the first sliding column is rotatably connected with the first connecting rod, the second sliding column is rotatably connected with the second connecting rod, and the rotating shaft is movably embedded in the guide groove.

8. The fish controller as claimed in claim 5, wherein the triggering assembly further comprises a shielding member disposed at the bottom of the fish controller main body, the shielding member is disposed below the triggering member main body, the triggering member main body is provided with a first mounting portion, the shielding member is provided with a second mounting portion, and a second elastic element is disposed between the first mounting portion and the second mounting portion.

9. The fish controller as claimed in claim 3, wherein the fish controller body is provided with a second insertion groove above the movable part, and the insertion part is inserted into the second insertion groove;

the lower right corner of the second embedded groove is provided with a notch towards the front end of the fish control device main body in a protruding mode, and when the limiting part is opposite to the rod body in an inclined mode, at least part of the lower edge of the embedded portion is located in the notch.

10. The fish controller as claimed in claim 1, wherein the fish controller body comprises a first panel and a second panel disposed opposite to each other and cooperating with each other, and the linkage clamping mechanism and the transmission mechanism are disposed between the first panel and the second panel.

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