CN220721552U - Fishhook loading attachment - Google Patents

Abstract

The utility model provides a fishhook feeding device which comprises a vibration disc mechanism, a material taking mechanism and a feeding mechanism, wherein the vibration disc mechanism is arranged on the material taking mechanism; the vibration disc mechanism is used for orderly outputting inverted fishhooks; the material taking mechanism comprises a material taking assembly and a translational rotation driving assembly, wherein the material taking assembly is fixed at the output end of the translational rotation driving assembly, the translational rotation driving assembly is used for driving the material taking assembly in a vertical posture to obtain an inverted fishhook at the output end of the vibration disc mechanism, and the material taking assembly is turned over and translated to output a lying fishhook in a horizontal posture; the feeding mechanism is connected with the output end of the material taking assembly and is used for conveying the fishhook to the binding station. According to the fishhook feeding device, according to the fact that the fishhook comprises the hook handle part and the hook part, the feeding mode that the hook handle part is fixed and the hook part protrudes is achieved, stable output of the fishhook is achieved, and line binding operation is facilitated.

Description

Fishhook loading attachment

Technical Field

The utility model belongs to the technical field of fishhook production, and particularly relates to a fishhook feeding device.

Background

The traditional fishhook and the fishline are sold in a split mode, and are bound by a fisher when the fishhook and the fishline are used, and for novice, stable binding is difficult to realize, so that the traditional fishhook and the fishline are usually bound into a whole and then sold. In the prior art, a device capable of realizing full-automatic fishhook binding wires is not available, and most of the devices are semi-automatic devices and are matched with people to realize the feeding and binding of the fishhooks, so that the production efficiency is low.

Therefore, it is necessary to provide a fishhook feeding device for automatically feeding the fishhook for the wire binding device to automatically bind the wire.

Disclosure of Invention

The utility model aims to provide a fishhook feeding device which is used for automatically acquiring and conveying fishhooks to a binding station.

The utility model is realized in such a way that the fishhook feeding device comprises a vibration disc mechanism, a material taking mechanism and a feeding mechanism; the vibration disc mechanism is used for orderly outputting inverted fishhooks; the material taking mechanism comprises a material taking assembly and a translational rotation driving assembly, the material taking assembly is fixed at the output end of the translational rotation driving assembly, the translational rotation driving assembly is used for driving the material taking assembly in a vertical posture to obtain an inverted fishhook at the output end of the vibration disc mechanism, and the material taking assembly is turned over and translated to output a lying fishhook in a horizontal posture; and the feeding mechanism is connected with the output end of the material taking assembly and is used for conveying the fishhook to the line binding station.

Preferably, the vibration disc mechanism comprises a vibration disc body, a direct vibration feeding rod and a pressing clamp assembly, wherein the input end of the direct vibration feeding rod is connected with the output end of the vibration disc body, the output end of the direct vibration feeding rod outputs inverted fishhooks which are sequentially arranged and are connected with the material taking assembly, and the pressing clamp assembly is arranged above the output end of the direct vibration feeding rod and is used for clamping and limiting the output of the fishhooks.

Preferably, the translation rotation driving assembly comprises a material taking mounting plate, a translation driving piece, a translation driving transmission piece, a rotation sliding plate and a rotation sliding block, wherein the translation driving piece is fixed on the material taking mounting plate, the input end of the translation driving transmission piece is fixed on the output end of the translation driving piece, the rotation sliding plate is rotatably fixed on the output end of the translation driving transmission piece and the rotation sliding block, and the rotation sliding block slides in an arc-shaped rotation groove arranged on the material taking mounting plate.

Preferably, the arc-shaped rotating groove comprises a vertical groove part, a round angle groove part and a horizontal groove part, wherein two ends of the round angle groove part are respectively connected with the vertical groove part and the horizontal groove part.

Preferably, the material taking assembly comprises a material taking driving piece, a material taking pushing seat and a material taking pushing plate, wherein the material taking driving piece is fixed on the rotating sliding plate, the material taking pushing seat is fixed on the output end of the material taking driving, the material taking pushing plate is fixed on the extending end of the material taking pushing seat, and the material taking pushing plate is a magnetic pushing plate and can directly adsorb an inverted fishhook.

Preferably, the feeding mechanism comprises a feeding mounting plate, a hook connecting guide assembly, a feeding driving assembly and a feeding assembly, wherein the feeding driving assembly is fixed on the feeding mounting plate, the feeding assembly is fixed on the output end of the feeding driving assembly, and the hook connecting guide assembly is arranged between the material taking assembly and the feeding assembly and used for guiding the material taking assembly and the feeding assembly when the fish hooks are connected.

Preferably, the hook receiving guide assembly comprises a hook receiving guide seat, a hook receiving guide driving piece and a hook receiving guide rod, wherein the hook receiving guide seat is fixed on the material taking mounting plate, the hook receiving guide driving piece is fixed on the hook receiving guide seat, and the hook receiving guide rod is fixed on the output end of the hook receiving guide driving piece.

Preferably, the feeding driving assembly comprises a feeding driving piece, a feeding sliding group and a feeding sliding plate, wherein the feeding driving piece and the sliding rail of the feeding sliding group are both fixed on the feeding mounting plate, and the feeding sliding plate is fixed on the output end of the feeding driving piece and the sliding block of the feeding sliding group.

Preferably, the feeding assembly comprises a clamping driving piece, a feeding positioning clamp and a feeding movable clamp, wherein the clamping driving piece and the feeding positioning clamp are both fixed on the feeding sliding plate, the feeding movable clamp is fixed at the output end of the clamping driving piece, and a clamping gap for clamping a fishhook handle is formed between the feeding positioning clamp and the feeding movable clamp in a surrounding mode.

Preferably, the material taking mechanism further comprises a falling hook groove box and a fishhook feeding detection assembly, the falling hook groove box and the fishhook feeding detection assembly are both fixed on the material taking installation plate, the falling hook groove box is arranged below the material taking assembly and used for receiving the fishhook falling from the material taking assembly, and the fishhook feeding detection assembly is arranged above the hook receiving guide assembly and used for detecting whether the fishhook is arranged on the hook receiving guide assembly.

The utility model has the beneficial effects that:

according to the fishhook feeding device, the material taking assembly is moved to the output end of the vibration disc mechanism through the translation rotation driving assembly, the material taking mechanism is enabled to acquire an inverted fishhook in a vertical posture, the material taking mechanism is enabled to translate to the output end of the feeding mechanism and output a lying fishhook to the feeding mechanism in a horizontal posture through the translation rotation driving assembly, at the moment, the feeding mechanism clamps the shank part of the fishhook, the shank part of the fishhook used for binding the line and the hook part of the fishhook are protruded out of the feeding mechanism, and the feeding mechanism can send the fishhook into the line binding station to achieve the binding line of the shank part. According to the fishhook feeding device, according to the fact that the fishhook comprises the hook handle part and the hook part, the feeding mode that the hook handle part is fixed and the hook part protrudes is achieved, stable output of the fishhook is achieved, and line binding operation is facilitated.

Drawings

FIG. 1 is a schematic structural view of a fishhook feeding device;

FIG. 2 is a schematic view of a first view configuration of the take off mechanism;

FIG. 3 is a schematic view of a second view configuration of the take off mechanism;

fig. 4 is a schematic partial structure of the feeding mechanism.

Reference numerals illustrate:

100. a vibrating disk mechanism; 110. vibrating the tray body; 120. a direct vibration feeding rod; 130. a press nip assembly; 200. a material taking mechanism; 210. a material taking assembly; 211. a take-out drive; 212. a material taking pushing seat; 213. a material taking push plate; 220. a translational rotation drive assembly; 221. a material taking mounting plate; 2211. an arc-shaped rotating groove; 222. a translation driving member; 223. a translation drive transmission member; 224. rotating the slide plate; 225. rotating the sliding block; 230. a hook falling groove box; 240. a fishhook feeding detection assembly; 300. a feeding mechanism; 310. a feeding mounting plate; 320. a hook guide assembly; 321. a hook connecting guide seat; 322. a hook guide driving piece; 323. a hook connecting guide rod; 330. a feed drive assembly; 331. a feed drive; 332. a feeding sliding group; 333. a feeding slide plate; 340. a feeding assembly; 341. clamping the driving member; 342. feeding a positioning clamp; 343. and feeding the movable clamp.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", etc., are based on those shown in the drawings, are merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present utility model; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be directly connected or indirectly connected through an intermediate medium, and can be the communication between the two parts. The specific meaning of the terms in the present utility model will be understood by those of ordinary skill in the art in specific detail.

Referring to fig. 1-4, a fishhook loading device comprises a vibration plate mechanism 100, a material taking mechanism 200 and a feeding mechanism 300; the vibration plate mechanism 100 is used for sequentially outputting inverted fish hooks; the material taking mechanism 200 comprises a material taking assembly 210 and a translational rotation driving assembly 220, wherein the material taking assembly 210 is fixed at the output end of the translational rotation driving assembly 220, the translational rotation driving assembly 220 is used for driving the material taking assembly 210 in a vertical posture to obtain an inverted fishhook at the output end of the vibration disc mechanism 100, and the material taking assembly 210 is turned and translated to output a lying fishhook in a horizontal posture; the feeding mechanism 300 is connected to the output end of the material taking assembly 210 for conveying the fishhook to the binding station.

Compared with the prior art, the fishhook feeding device in the scheme moves the material taking assembly 210 to the output end of the vibration disc mechanism 100 through the translation rotation driving assembly 220, so that the material taking mechanism 200 obtains an inverted fishhook in a vertical posture, the material taking mechanism 200 translates to the output end of the feeding mechanism 300 and outputs a lying fishhook to the feeding mechanism 300 in a horizontal posture through the translation rotation driving assembly 220, at the moment, the feeding mechanism 300 clamps the shank part of the fishhook, the part of the shank part of the fishhook used for binding the line and the hook part of the fishhook are protruded out of the feeding mechanism 300, and the feeding mechanism 300 feeds the fishhook into the line binding station to achieve the binding line of the shank part. According to the fishhook feeding device, according to the fact that the fishhook comprises the hook handle part and the hook part, the feeding mode that the hook handle part is fixed and the hook part protrudes is achieved, stable output of the fishhook is achieved, and line binding operation is facilitated.

In this embodiment, the vibration plate mechanism 100 includes a vibration plate body 110, a direct vibration feeding rod 120 and a pressing clamp assembly 130, the input end of the direct vibration feeding rod 120 is connected with the output end of the vibration plate body 110, the output end of the direct vibration feeding rod 120 outputs inverted fishhooks sequentially arranged and is connected with the material taking assembly 210, and the pressing clamp assembly 130 is arranged above the output end of the direct vibration feeding rod 120 for clamping and limiting the output of the fishhooks. The top shape of the direct vibration feeding rod 120 is adapted to the shape of the hook portion of the fishhook to ensure that the hook portion of the fishhook can enter the direct vibration feeding rod 120 in order. It will be appreciated that the pressing clamp assembly 130 includes a pressing rod and a pressing driving member, the pressing rod is fixed on the pressing driving member, when the material taking assembly 210 takes the material, the pressing rod is lifted to enable the fishhook to be absorbed by the material taking assembly 210, and after the material taking assembly 210 takes the material, the pressing rod is pressed down to press the fishhook onto the direct vibration feeding rod 120 and cannot move.

In this embodiment, the translational rotation driving assembly 220 includes a material taking mounting plate 221, a translational driving member 222, a translational driving member 223, a rotation sliding plate 224 and a rotation sliding block 225, where the translational driving member 222 is fixed on the material taking mounting plate 221, the input end of the translational driving member 223 is fixed on the output end of the translational driving member 222, the rotation sliding plate 224 is rotatably fixed on the output end of the translational driving member 223 and the rotation sliding block 225, and the rotation sliding block 225 slides in an arc-shaped rotation groove 2211 provided on the material taking mounting plate 221. The arc-shaped rotating groove 2211 comprises a vertical groove part, a round angle groove part and a horizontal groove part, wherein two ends of the round angle groove part are respectively connected with the vertical groove part and the horizontal groove part.

Specifically, the translation driving member 222 drives the translation driving member 223 to move in a translation manner, the rotation sliding plate 224 moves in a translation manner under the transmission action of the translation driving member 223, and the rotation sliding plate 224 slides in the arc-shaped rotation groove 2211, so that the rotation sliding plate 224 is simultaneously subjected to the horizontal pulling force of the rotation sliding plate 224 and the vertical limiting force of the vertical groove part in the translation process of the rotation sliding plate 224, and under the condition that the relative distance between the rotation sliding plate 225 and the translation driving member 223 is ensured to be certain, the rotation of the rotation sliding plate 224 occurs in the translation process, and the transition from the vertical posture to the horizontal posture of the material taking assembly 210 is realized.

In this embodiment, the material taking assembly 210 includes a material taking driving member 211, a material taking pushing seat 212 and a material taking pushing plate 213, wherein the material taking driving member 211 is fixed on a rotating sliding plate 224, the material taking pushing seat 212 is fixed on an output end of the material taking driving member, and the material taking pushing plate 213 is fixed on an extending end of the material taking pushing seat 212. Alternatively, the material taking push plate 213 is a magnetic push plate, and can directly adsorb the inverted fishhook, thereby realizing the material taking process of the fishhook. Or the adhesive material is coated on the material taking push plate 213, and the inverted fishhook can be singly adsorbed and taken.

In this embodiment, the feeding mechanism 300 includes a feeding mounting plate 310, a hook guiding component 320, a feeding driving component 330 and a feeding component 340, wherein the feeding driving component 330 is fixed on the feeding mounting plate 310, the feeding component 340 is fixed on the output end of the feeding driving component 330, and the hook guiding component 320 is disposed between the material taking component 210 and the feeding component 340 for guiding when the material taking component 210 and the feeding component 340 cross the fishhook.

In this embodiment, the hook guiding assembly 320 includes a hook guiding seat 321, a hook guiding driving member 322 and a hook guiding rod 323, the hook guiding seat 321 is fixed on the material taking mounting plate 221, the hook guiding driving member 322 is fixed on the hook guiding seat 321, and the hook guiding rod 323 is fixed on the output end of the hook guiding driving member 322. The hook receiving guide bar 323 is internally provided with a hook handle groove which is convenient for the insertion of the hook handle part of the fishhook so as to realize the positioning of the hook handle of the fishhook and facilitate the clamping and feeding of the feeding component 340.

In the present embodiment, the feeding driving assembly 330 includes a feeding driving member 331, a feeding sliding set 332 and a feeding sliding plate 333, wherein the sliding rails of the feeding driving member 331 and the feeding sliding set 332 are fixed on the feeding mounting plate 310, and the feeding sliding plate 333 is fixed on the output end of the feeding driving member 331 and the sliding block of the feeding sliding set 332.

In this embodiment, the feeding assembly 340 includes a clamping driving member 341, a feeding positioning clamp 342 and a feeding movable clamp 343, wherein the clamping driving member 341 and the feeding positioning clamp 342 are both fixed on the feeding slide 333, the feeding movable clamp 343 is fixed on the output end of the clamping driving member 341, and a gap for clamping the handle of the fishhook is defined between the feeding positioning clamp 342 and the feeding movable clamp 343.

In this embodiment, the material taking mechanism 200 further includes a hook drop slot box 230 and a hook feeding detection assembly 240, wherein the hook drop slot box 230 and the hook feeding detection assembly 240 are both fixed on the material taking mounting plate 221, the hook drop slot box 230 is disposed below the material taking assembly 210 and is used for receiving the hook dropped by the material taking assembly 210, and the hook feeding detection assembly 240 is disposed above the hook receiving guide assembly 320 and is used for detecting whether the hook is on the hook receiving guide assembly.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. Fishhook loading attachment, its characterized in that includes:

the vibration disc mechanism is used for orderly outputting inverted fishhooks;

the material taking mechanism comprises a material taking assembly and a translational rotation driving assembly, the material taking assembly is fixed at the output end of the translational rotation driving assembly, the translational rotation driving assembly is used for driving the material taking assembly in a vertical posture to obtain an inverted fishhook at the output end of the vibration disc mechanism, and the material taking assembly is turned over and translated to output a lying fishhook in a horizontal posture;

and the feeding mechanism is connected with the output end of the material taking assembly and is used for conveying the fishhook to the binding station.

2. The fishhook feeding device of claim 1, wherein the vibration plate mechanism comprises a vibration plate body, a direct vibration feeding rod and a pressing clamp assembly, the input end of the direct vibration feeding rod is connected with the output end of the vibration plate body, the output end of the direct vibration feeding rod outputs inverted fishhooks which are sequentially arranged and is connected with the material taking assembly, and the pressing clamp assembly is arranged above the output end of the direct vibration feeding rod and is used for clamping and limiting the output of the fishhooks.

3. The fish hook feeding device of claim 2, wherein the translational rotation driving assembly comprises a material taking mounting plate, a translational driving member, a translational driving transmission member, a rotation sliding plate and a rotation sliding block, wherein the translational driving member is fixed on the material taking mounting plate, the input end of the translational driving transmission member is fixed on the output end of the translational driving member, the rotation sliding plate is rotatably fixed on the output end of the translational driving transmission member and the rotation sliding block, and the rotation sliding block slides in an arc-shaped rotation groove arranged on the material taking mounting plate.

4. The fish hook feeding device of claim 3, wherein the arc-shaped rotating groove comprises a vertical groove portion, a round groove portion and a horizontal groove portion, and two ends of the round groove portion are respectively connected with the vertical groove portion and the horizontal groove portion.

5. The fish hook feeding device of claim 3, wherein the material taking assembly comprises a material taking driving member, a material taking pushing seat and a material taking pushing plate, the material taking driving member is fixed on the rotating sliding plate, the material taking pushing seat is fixed on the output end of the material taking driving member, and the material taking pushing plate is fixed on the extending end of the material taking pushing seat.

6. The fish hook feeding device of claim 3, wherein the feeding mechanism comprises a feeding mounting plate, a hook receiving guide assembly, a feeding driving assembly and a feeding assembly, wherein the feeding driving assembly is fixed on the feeding mounting plate, the feeding assembly is fixed on the output end of the feeding driving assembly, and the hook receiving guide assembly is arranged between the material taking assembly and the feeding assembly and used for guiding when the material taking assembly and the feeding assembly cross the fish hooks.

7. The fish hook loading device of claim 6, wherein the hook receiving guide assembly comprises a hook receiving guide holder, a hook receiving guide drive member, and a hook receiving guide rod, the hook receiving guide holder is fixed to the material taking mounting plate, the hook receiving guide drive member is fixed to the hook receiving guide holder, and the hook receiving guide rod is fixed to an output end of the hook receiving guide drive member.

8. The fish hook feeding device of claim 6, wherein the feeding driving assembly comprises a feeding driving member, a feeding sliding group and a feeding sliding plate, wherein the feeding driving member and the sliding rail of the feeding sliding group are both fixed on the feeding mounting plate, and the feeding sliding plate is fixed on the output end of the feeding driving member and the sliding block of the feeding sliding group.

9. The fish hook feeding device of claim 8, wherein the feeding assembly comprises a clamping driving member, a feeding positioning clamp and a feeding movable clamp, wherein the clamping driving member and the feeding positioning clamp are both fixed on the feeding sliding plate, the feeding movable clamp is fixed on the output end of the clamping driving member, and a clamping gap for clamping a fish hook handle is formed between the feeding positioning clamp and the feeding movable clamp in a surrounding manner.

10. The fish hook feeding device of claim 6, wherein the material taking mechanism further comprises a hook falling groove box and a fish hook feeding detection assembly, the hook falling groove box and the fish hook feeding detection assembly are both fixed on the material taking mounting plate, the hook falling groove box is arranged below the material taking assembly and used for receiving a fish hook falling from the material taking assembly, and the fish hook feeding detection assembly is arranged above the hook receiving guide assembly and used for detecting whether a fish hook exists on the hook receiving guide assembly.