CN111922196B - Equipment and method for automatically producing fishhooks - Google Patents

Abstract

The invention provides equipment for automatically producing fishhooks, which comprises a feeding mechanism and a forming mechanism, wherein the feeding mechanism comprises a feeding mechanism body and a forming mechanism; the forming mechanism comprises a forming device, a filling device and a bending device for bending the fishhook pipe; the bending device comprises a first bending device for bending the fishhook pipe for the first time, a second bending device for bending the fishhook pipe for the second time, and a supporting component arranged between the first bending device and the second bending device; the forming device, the filling device and the bending device are sequentially arranged along the conveying direction of the feeding mechanism. The automatic fishhook production line has the advantages that the automation degree is high, the fishhook is produced through production equipment, the labor cost is reduced, the automatic production of the fishhook is realized, the produced fishhook is high in precision and stable in quality, good public praise is kept, dangerous procedures such as tip cutting and barb punching are realized by replacing manpower with machinery, and the potential safety hazard brought in the production process is reduced. The invention also provides a method for automatically producing the fishhook.

Description

Equipment and method for automatically producing fishhooks

Technical Field

The invention relates to the technical field, in particular to equipment and a method for automatically producing fishhooks.

Background

Fishing belongs to an outdoor activity, and is not limited by age, so adults and children enjoy the fishing. Fishing needs fishing gear, and the fishhook in the fishing gear is a very important part in fishing, and the quality of fishhook is decided whether the bait is put well, also has close relation with whether the big fish is easy to escape after eating the bait after getting on the hook.

The preparation to the fishhook in the existing market can't realize automaticly usually, and the fishhook all is solid, can't improve or increase some improvement to its inside and catch the improvement of fish probability, only have the barb to be used for preventing to get on the hook the back and escape, but because the barb is less, the probability of big fishhook on the barb also can't be mastered, lead to meeting often and escaping the problem after the big fish eats the bait, and if old person angles the big fish, because of big fish struggle the power of rolling strong, the old person is not enough on physical power, probably lead to unexpected emergence.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

Disclosure of Invention

An object of the present invention is to provide an apparatus for automatically producing a fishhook, so as to solve the problems mentioned in the background art that the automation degree of the fishhook production is low, and the fishhooks are solid and cannot be modified inside.

The invention also provides a method for automatically producing the fishhook, which has the effects that after the fishhook is manufactured, anesthetic is put into the fishhook, and after the fishhook is fished, the big fish is anesthetized by the anesthetic, so that when a fisher drags the big fish on the big fish, the big fish loses resistance and cannot roll in water, the big fish is easy to drag, and the hooked big fish is not worried about to run off.

In order to achieve the purpose, the invention adopts the following technical scheme:

an automatic production fishhook device comprises a feeding mechanism for conveying a fishhook pipe and a forming mechanism for forming the fishhook pipe; the forming mechanism comprises a forming device for cutting and punching an agnail at one end of the fishhook pipe, a filling device for filling the elastic core in the fishhook pipe and a bending device for bending the fishhook pipe; the bending device comprises a first bending device for bending the fishhook pipe for the first time, a second bending device for bending the fishhook pipe for the second time, and a supporting component arranged between the first bending device and the second bending device; the forming device, the filling device and the bending device are sequentially arranged along the conveying direction of the feeding mechanism.

Further, the first bending device comprises a first bending part and a first bending driving device for driving the first bending part to bend the fishhook pipe; the second bending device comprises a second bending part and a second bending driving device for driving the second bending part to bend the fishhook pipe; the support member comprises a support block; the output end of the first bending driving device is connected with the first bending part, and the output end of the second bending driving device is connected with the second bending part.

Further, the first bending part comprises a first bending block and a second bending block; the second bending block is arranged at one end of the first bending block and is perpendicular to the first bending block; the second bending part comprises a third bending block and a fourth bending block; the fourth bending block is arranged at one end of the third bending block and is perpendicular to the third bending block.

Furthermore, the bending device is also provided with a supporting device for supporting the fishhook pipe.

Further, the supporting device comprises a workbench for supporting the fishhook pipe; and a gap for the fish hook pipe to pass through is formed between the supporting block and the workbench.

Furthermore, the bending device also comprises a feeding device for conveying the fishhook pipe to the workbench.

Further, material feeding unit includes the clamping device who carries out the centre gripping to the fishhook pipe and drive clamping device pivoted rotary driving device.

Further, the clamping device comprises a placing table for placing the fishhook pipe and a clamping device matched with the placing table to clamp the fishhook pipe.

Further, the clamping device comprises a clamping rod, a clamping block and a lifting driving device for driving the clamping rod to lift; one end of the clamping rod is connected with the clamping block, and the other end of the clamping rod is connected with the output end of the lifting driving device.

Further, the rotation driving device comprises a rotating column and a rotating cylinder; the output end of the rotary cylinder is connected with the rotary column.

Furthermore, the clamping device is provided with a plurality of clamping devices, and the clamping devices are arranged at equal intervals around the outer circumferential surface of the rotating column.

Further, forming device includes and carries out the device of cutting the point to the one end of fishhook pipe and the dashing of dashing the barb device that dashes the barb to the one end of fishhook pipe.

Further, the tip cutting device comprises a first cutter, a second cutter, a mounting frame and a cutting driving device for driving the first cutter to move; the first cutter is connected with the mounting frame in a sliding mode, the second cutter is fixedly connected with the mounting frame, the first cutter is gradually arranged in an inclined mode, the second cutter is arranged horizontally, the first cutter and the second cutter are arranged in opposite directions, and the output end of the cutting driving device is connected with the first cutter; the barb punching device is connected to the mounting frame in a sliding manner and comprises a sliding block, a barb punching knife and a power driving device for driving the sliding block to slide; the utility model discloses a fishhook pipe, including mounting bracket, be equipped with the slide rail on the mounting bracket, the slide rail inclines gradually to set up, be formed with the through-hole that dashes down the bayonet and pass on the mounting bracket, the axis of through-hole and the axis of fishhook pipe intersect, the slider passes through slide rail and mounting bracket sliding connection, the one end of dashing down bayonet and slider links together, power drive's output and the other end of slider link together.

Further, the first cutter is gradually inclined downwards, and the slide rail is gradually inclined upwards.

Furthermore, the filling device comprises an extrusion device for extruding the elastic core into the fishhook pipe and a limiting device for limiting the fishhook pipe; the extrusion device is positioned at one end of the barb of the fishhook pipe, and the limiting device is positioned at the other end of the fishhook pipe.

Further, the extrusion device comprises an extrusion block and an extrusion component for feeding the elastic core into the fishhook pipe; the extrusion block is provided with an elastic core and a through hole through which the extrusion component passes; the axis of the perforation is flush with the axis of the fishhook pipe, and the diameter of the perforation is smaller than the inner diameter of the fishhook pipe; the limiting device comprises a limiting block, and the position of the limiting block corresponds to the position of the extrusion block.

Further, the extrusion part comprises an extrusion rod and an extrusion driving device for driving the extrusion rod to extrude the elastic core; the diameter of the extrusion rod is matched with that of the through hole, and the output end of the extrusion driving device is connected with the extrusion rod.

Further, the feeding mechanism comprises a discharging device for outputting the fishhook pipes one by one and a conveying device for conveying the fishhook pipes.

Further, the conveying device comprises a conveying belt and a first transmission driving device for driving the conveying belt to transmit; the conveying belt is provided with a containing groove for containing the fishhook pipe, and the conveying belt is provided with a clamping station corresponding to the clamping device.

Furthermore, the feeding mechanism also comprises a pressing device which is positioned above the conveying device and used for pressing the fishhook pipe.

Further, the pressing device comprises a conveyor belt and a second transmission driving device for driving the conveyor belt to transmit.

Further, the conveyer belt and the conveyer belt rotate synchronously.

Further, still include the containing box that collects the fishhook pipe after bending.

A method for automated production of fishhooks, the method comprising the steps of:

s1, cutting and punching barbs on the fishhook pipe;

s2, filling the elastic core into the fishhook pipe;

s3, bending the fishhook pipe;

s4, collecting the bent fishhook pipe;

s5, connecting the elastic core and the fishhook with a fishhook hook respectively;

s6, placing anesthetic in the fishhook tube.

Further, in S1, the one end of the hook pipe is sharpened by the sharpening device, and the sharpened hook pipe is subjected to the piercing process by the piercing device.

Further, in S2, the elastic core is put into the hook tube through the through hole, and then pressed toward the other end of the hook tube by the pressing member.

Furthermore, one end of the elastic core extends out of the fishhook pipe, and the other end of the elastic core extends into the fishhook pipe.

Further, in S3, the first bending process is performed on the hook pipe, and then the second bending process is performed on the hook pipe.

Further, the fishhook pipe is conveyed to a workbench of the bending device through the feeding device, after the fishhook pipe penetrates through a gap between the supporting block and the workbench, the first bending driving device is driven to enable the first bending part to move upwards to perform first bending processing, and after the first bending processing, the second bending driving device is driven to enable the second bending part to move rightwards to perform second bending processing.

Further, in the step S5, one end of the elastic core extending out of the fishhook tube is fixedly connected with the fishhook hook; the fishhook is connected with the fishhook hook through a tension spring.

Furthermore, one end of the tension spring is welded with the fishhook hook, and the other end of the tension spring is welded with the fishhook.

Further, in S6, after the anesthetic is placed in the tube, a water-soluble film is coated on the end surface of the tube to prevent the anesthetic from falling out.

After adopting the structure, the equipment for automatically producing the fishhook has at least the following beneficial effects:

conveying the fishhook pipe through the feeding mechanism, performing tip cutting and barb punching treatment on one end of the fishhook pipe when the fishhook pipe passes through the forming device, filling the elastic core into the fishhook pipe through the filling device after the tip cutting and the barb punching are performed, and performing primary bending treatment and secondary bending treatment on the fishhook pipe through a first bending device and a second bending device of the bending device respectively to enable the fishhook pipe to be changed into a hooked shape from a rod shape; the automatic fishhook production line has the advantages that the automation degree is high, the fishhook is produced through production equipment, the labor cost is reduced, the automatic production of the fishhook is realized, the produced fishhook is high in precision and stable in quality, good public praise is kept, dangerous procedures such as tip cutting and barb punching are realized by replacing manpower with machinery, and the potential safety hazard brought in the production process is reduced.

The invention also provides a method for automatically producing the fishhook, which comprises the steps of filling the elastic core into the fishhook pipe, placing anesthetic into the groove formed between the elastic core and the fishhook pipe, and sealing the end part of the fishhook pipe with the water-soluble film.

Drawings

FIG. 1 is a schematic perspective view of an apparatus and method for automatically producing a fishhook according to the present invention;

FIG. 2 is a schematic perspective view of an imaging device of an apparatus and method for automatically producing a fishhook according to the present invention;

FIG. 3 is a schematic front view of a bending apparatus for an apparatus and a method for automatically manufacturing a fishhook according to the present invention;

FIG. 4 is a schematic perspective view of a feeding device of an apparatus and a method for automatically producing a fishhook according to the present invention;

fig. 5 is a schematic view of a connection structure between a fishhook and a fishhook hook according to an apparatus and a method for automatically producing a fishhook according to the present invention.

In the figure: 1-feeding mechanism, 2-forming device, 3-filling device, 4-bending device, 5-containing box, 21-tip cutting device, 22-punching and thorn-pouring device, 211-first cutter, 212-second cutter, 213-mounting rack, 221-slide block, 222-punching and thorn-pouring knife, 2131-slide rail, 2132-through hole, 31-extruding device, 311-extruding block, 312-extruding component, 3121-extruding rod, 3122-extruding driving device, 41-first bending device, 42-second bending device, 43-supporting component, 411-first bending component, 412-first bending driving device, 421-second bending component, 422-second bending driving device, 4111-first bending block, 4112-second bending block, 4211-third bending block, 4212-fourth bending block, 44-supporting device, 45-feeding device, 451-clamping device, 452-rotary driving device, 4511-clamping table, 4512-clamping device, 45121-clamping rod, 45122-clamping block, 4521-rotary column, 4522-rotary cylinder, 11-discharging device, 12-conveying device, 13-pressing device, 61-fishhook tube, 62-elastic core, 63-fishhook hook, 64-tension spring, 65-anesthetic.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

As shown in fig. 1 to 5, the automatic fishhook production equipment of the invention comprises a feeding mechanism 1 for conveying a fishhook pipe and a forming mechanism for forming the fishhook pipe; the forming mechanism comprises a forming device 2 for cutting and punching an agnail at one end of the fishhook pipe, a filling device 3 for filling the elastic core 62 in the fishhook pipe, and a bending device 4 for bending the fishhook pipe; the bending device 4 comprises a first bending device 41 for performing a first bending process on the fishhook pipe, a second bending device 42 for performing a second bending process on the fishhook pipe, and a supporting member 43 arranged between the first bending device 41 and the second bending device 42; the forming device 2, the filling device 3, and the bending device 4 are sequentially arranged along the conveying direction of the feeding mechanism 1.

Thus, the fishhook pipe is conveyed by the feeding mechanism 1, when the fishhook pipe passes through the forming device 2, one end of the fishhook pipe is subjected to tip cutting and barb punching, after the tip cutting and barb punching, the elastic core 62 is filled into the fishhook pipe through the filling device 3, and the first bending device 41 and the second bending device 42 of the bending device 4 are used for respectively performing first bending processing and second bending processing on the fishhook pipe, so that the fishhook pipe is changed into a hooked shape from a rod shape; the automatic fishhook production line has the advantages that the automation degree is high, the fishhook is produced through production equipment, the labor cost is reduced, the automatic production of the fishhook is realized, the produced fishhook is high in precision and stable in quality, good public praise is kept, dangerous procedures such as tip cutting and barb punching are realized by replacing manpower with machinery, and the potential safety hazard brought in the production process is reduced.

Preferably, the first bending device 41 includes a first bending part 411, and a first bending driving device 412 for driving the first bending part 411 to bend the fishhook pipe; the second bending device 42 comprises a second bending part 421 and a second bending driving device 422 for driving the second bending part 421 to perform a second bending treatment on the fishhook pipe; the support member 43 includes a support block; the output end of the first bending driving means 412 is connected to the first bending part 411, and the output end of the second bending driving means 422 is connected to the second bending part 421. The first bending driving device 412 drives the first bending part 411 to perform a first bending process on the fishhook pipe, and the second bending driving device 422 drives the second bending part 421 to perform a second bending process on the fishhook pipe, so that the action of bending the fishhook pipe 61 twice is completed, and the fishhook pipe 61 is bent into a required shape through the bending device.

Preferably, the first bending part 411 includes a first bending block 4111 and a second bending block 4112; the second bending block 4112 is disposed at one end of the first bending block 4111 and perpendicular to the first bending block 4111; the second bending member 421 includes a third bending block 4211 and a fourth bending block 4212; the fourth bending block 4212 is disposed at one end of the third bending block 4211 and perpendicular to the third bending block 4211. The fishhook pipe is bent into a desired shape for the first time by the first bending block 4111 and the second bending block 4112, and the third bending block 4211 and the fourth bending block 4212 bend the fishhook pipe into a desired shape for the second time.

Preferably, the bending device 4 is further provided with a supporting device 44 for supporting the fishing hook pipe. The supporting device 44 is convenient for bending the fishhook pipe.

Preferably, the holding device 44 comprises a table for holding the fishing hook pipe; a gap for the fish hook pipe to pass through is arranged between the supporting block and the workbench. The pipe is placed on the table and passed through the gap, and the first bending device 41 and the second bending device 42 bend the pipe to a desired shape.

Preferably, the bending device 4 further comprises a feeding device 45 for feeding the fishhook tube to the work table. Through material feeding unit 45 and bending device 4 cooperation, improve production efficiency.

Preferably, the feeding device 45 includes a clamping device 451 for clamping the hook pipe, and a rotation driving device 452 for driving the clamping device 451 to rotate. The rotary drive 452 rotates the pipe hook gripped by the gripper 451 to the station where the bending device 4 is located.

Preferably, the holding means 451 comprises a placing table on which the hook tube is placed, and a clamping means 4512 for clamping the hook tube in cooperation with the placing table. When the pipe reaches the placing table, the clamping device 4512 clamps the pipe downwards in cooperation with the placing table.

Preferably, the clamping device 4512 comprises a clamping rod 45121, a clamping block 45122 and a lifting driving device for driving the clamping rod 45121 to lift; one end of the clamp lever 45121 is connected to the clamp block 45122, and the other end of the clamp lever 45121 is connected to the output end of the lift drive. When the fishing hook pipe is transferred to the clamping table 4511, the lifting driving device drives the clamping block 45122 to descend to clamp the fishing hook pipe.

Preferably, the rotation driving means 452 includes a rotation column 4521 and a rotation cylinder 4522; the output of the rotary cylinder 4522 is connected to the rotary post 4521. The rotating cylinder 4522 drives the rotating column 4521 to rotate, and the rotating column 4521 drives the clamping device 451 to rotate, so that the fishhook pipe is rotated to a position corresponding to the workbench.

Preferably, the clamping device 451 is provided in plurality, and the plurality of clamping devices 451 are annularly provided on the outer circumferential surface of the spin column 4521 and are disposed at equal intervals. The fishing hook pipe is continuously conveyed, and the rod folding efficiency is improved.

Preferably, the forming device 2 includes a tip cutting device 21 for cutting a tip of one end of the hook pipe, and a barb punching device 22 for punching a barb of one end of the hook pipe. When the fishhook pipe reaches the position corresponding to the forming device 2 through the feeding mechanism 1, the fishhook pipe is firstly subjected to tip cutting treatment, and then the fishhook pipe after the tip cutting is subjected to punching and barb-falling treatment.

Preferably, the sharpening device 21 comprises a first cutter 211, a second cutter 212, a mounting bracket 213 and a cutting driving device for driving the first cutter 211 to move; the first cutter 211 is slidably connected with the mounting frame 213, the second cutter 212 is fixedly connected with the mounting frame 213, the first cutter 211 is gradually inclined, the second cutter 212 is horizontally arranged, the first cutter 211 and the second cutter 212 are oppositely arranged, and the output end of the cutting driving device is connected with the first cutter 211; the barb punching device 22 is connected to the mounting frame 213 in a sliding manner, and the barb punching device 22 comprises a sliding block 221, a barb punching knife 222 and a power driving device for driving the sliding block 221 to slide; the mounting frame 213 is provided with a slide rail 2131, the slide rail 2131 is gradually inclined, the mounting frame 213 is provided with a through hole 2132 through which the punching knife 222 penetrates, the axis of the through hole 2132 is intersected with the axis of the fishhook pipe, the sliding block 221 is slidably connected with the mounting frame 213 through the slide rail 2131, the punching knife 222 is connected with one end of the sliding block 221, and the output end of the power driving device is connected with the other end of the sliding block 221. The cutting driving device drives the first cutter 211 to move downwards in an inclined mode to be matched with the second cutter 212 to cut one end of the fishhook pipe, after the end of the fishhook pipe is cut, the power driving device drives the sliding block 221 to move upwards in an inclined mode, the sliding block 221 drives the punching and barbed knife 222 to move upwards in an inclined mode, and the fishhook pipe penetrates through the fishhook pipe to form a barb.

Preferably, the first cutter 211 is gradually inclined downward, and the slide rail 2131 is gradually inclined upward. The tip cutting device 21 and the punching and barbed device 22 are mutually matched, and the fishhook pipe is efficiently processed.

Preferably, the filling device 3 comprises a pressing device 31 for pressing the elastic core 62 into the fishhook tube, and a limiting device for limiting the fishhook tube; the extrusion device 31 is positioned at one end of the barb of the fishhook pipe, and the limiting device is positioned at the other end of the fishhook pipe. The extrusion device 31 extrudes the elastic core 62 into the fishhook pipe, and the limiting device limits the other end of the fishhook pipe when the extrusion device 31 works, so that the elastic core 62 is more easily placed into the fishhook pipe; specifically, the limiting device is provided with a limiting hole through which the elastic core 62 passes, and the diameter of the limiting hole is larger than that of the elastic core 62 and smaller than the outer diameter of the fishhook pipe.

Preferably, the pressing means 31 includes a pressing block 311, and a pressing member 312 for pressing the elastic core 62 into the fishhook tube; the extrusion block 311 is provided with a through hole through which the elastic core 62 and the extrusion member 312 pass; the axis of the perforation is flush with the axis of the fishhook pipe, and the diameter of the perforation is smaller than the inner diameter of the fishhook pipe; the limiting device comprises a limiting block, and the position of the limiting block corresponds to the position of the extrusion block 311. The elastic core 62 is put into the fishhook pipe through a plurality of through holes on the upstream in the conveying direction of the feeding mechanism 1, and then the elastic core 62 is completely extruded into the fishhook pipe through the extrusion part 312; specifically, the number of the holes on the extrusion block 311 is even, so that the holes can be conveniently in one-to-one correspondence with the extrusion parts 312, and the work of putting the elastic cores 62 into the fishhook pipe can be efficiently completed.

Preferably, the pressing member 312 includes a pressing rod 3121, and a pressing driving device 3122 which drives the pressing rod 3121 to press the elastic core 62; the diameter of the pressing rod 3121 is matched with the diameter of the through hole, and the output end of the pressing driving device 3122 is connected with the pressing rod 3121. The pressing rod 3121 is driven by the pressing driving device 3122 to move, so that the elastic core 62 is completely inserted into the fishhook tube.

Preferably, the feeding mechanism 1 comprises a discharge device 11 for discharging the pipes one by one, and a conveying device 12 for conveying the pipes. The unprocessed fishhook pipes are placed into a discharging device 11, the discharging device 11 outputs the fishhook pipes to a conveying device 12 one by one, and the conveying device 12 conveys the fishhook pipes to a forming mechanism.

Preferably, the conveying device 12 comprises a conveying belt, and a first transmission driving device for driving the conveying belt; the conveying belt is provided with a containing groove for containing the fishhook pipe, and the conveying belt is provided with a clamping station corresponding to the clamping device 451. The fishhook pipes are arranged in the accommodating groove in a one-to-one correspondence mode, so that the fishhook pipes are continuously and efficiently processed, and the processing rhythm is not disturbed easily.

Preferably, the feeding mechanism 1 further comprises a pressing device 13 for pressing the fishhook tube above the conveyor 12. The pressing device 13 can stabilize the fishhook pipe during processing and prevent the fishhook pipe from deviating.

Preferably, the pressing device 13 comprises a conveyor belt, and a second transmission driving device for driving the conveyor belt. The fishhook pipe can be more smoothly conveyed while being fixed on the conveying belt.

Preferably, the conveyor belt and the conveyor belt rotate synchronously. The fishhook pipe is more smooth in conveying.

Preferably, the fishing hook collecting box further comprises a storage box 5 for collecting the bent fishing hook pipes. Put into containing box 5 with the fishhook pipe after bending, the follow-up staff of being convenient for puts into narcotic drug 65 to the fishhook intraductal.

A method for automated production of fishhooks, the method comprising the steps of:

s1, cutting and punching barbs on the fishhook tube 61;

s2, filling the elastic core 62 into the fishhook pipe 61;

s3, bending the fishhook pipe 61;

s4, collecting the bent fishhook pipe 61;

s5, connecting the elastic core 62 and the fishhook pipe 61 with a fishhook hook 63 respectively;

s6, placing anesthetic 65 into the fishhook tube 61.

Like this, when the old person is fishing, it is generally relatively poor because of old person's physical strength, the old person angles the big fish and can be very hard, when the big fish is caught, the big fish struggles to roll and makes the old man be difficult to handle, it is unexpected to probably take place, through filling elasticity core 62 to the intraductal fish hook, narcotic 65 is put into in the recess that forms between elasticity core 62 and fish hook pipe, and seal up water-soluble membrane at the tip of fish hook pipe, when the big fish is caught hold of a hook, the fish hook is because of the weight downstream of big fish, the relative fish hook upward movement of elasticity core 62, make narcotic 65 popped out, it is internal to go into the big fish after breaking water-soluble membrane, make the unable resistance of big fish, increase the person's of fishing success rate, the power of competing each other with the big fish when sparingly receiving the pole, very big improvement the person of fishing experience.

Preferably, in S1, one end of the fishhook tube is sharpened by the sharpening device 21, and the sharpened fishhook tube is stabbed by the stabbing device 22. The fish hook pipe is easier to penetrate bait through the processes of cutting the tip and punching the barb, and the barb makes the fish not easy to run off after the fish is hooked.

Preferably, in S2, the elastic core 62 is put into the hook tube through the perforation, and the elastic core 62 is pressed toward the other end of the hook tube by the pressing member 312. The anesthetic 65 is ejected by the elastic force of the elastic core 62, and the fishing experience is enhanced.

Preferably, one end of the elastic core 62 extends out of the hook tube and the other end extends into the hook tube. One end extending out of the fishhook pipe is connected with the fishhook hook 63, and the other end extending into the fishhook pipe and the inner wall of the fishhook pipe form a groove for containing anesthetic 65.

Preferably, in S3, the first bending process is performed on the fishhook tube, and then the second bending process is performed on the fishhook tube. And bending the fishhook pipe into a required shape through the primary bending treatment and the secondary bending treatment.

Preferably, the feeding device 45 feeds the fishhook tube to the workbench of the bending device 4, so that the fishhook tube passes through the gap between the supporting block and the workbench, the first bending driving device 412 is driven to move the first bending part 411 upwards for the first bending treatment, and after the first bending treatment, the second bending driving device 422 is driven to move the second bending part 421 rightwards for the second bending treatment. The fishhook pipe is bent into a required shape.

Preferably, in S5, the end of the elastic core 62 extending out of the fishhook tube is fixedly connected with the fishhook 63; the fishhook tube 61 is connected to a fishhook 63 by a tension spring 64. After the bait is hooked, the fishing hook pipe 61 drops downwards, the elastic core 62 moves upwards relatively, the anesthetic 65 is ejected out, the fishing is more labor-saving, and meanwhile the tension spring 64 enables the positions of the fishing hook pipe 61 and the elastic core 62 to reset, so that the recycling is facilitated.

Preferably, one end of the tension spring 64 is welded to the fishhook 63, and the other end of the tension spring 64 is welded to the fishhook. Increasing the strength of the fishhook and the fishhook 63.

Preferably, in S6, after the anesthetic 65 is placed in the fish hook tube, a water-soluble film is coated on the end surface of the fish hook tube to prevent the anesthetic 65 from dropping out. The anesthetic 65 does not fall off by itself, and the elastic force of the elastic core 62 is required to be bounced to burst the water-soluble film.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

Claims (30)

1. The utility model provides an automatic change production fishhook's equipment which characterized in that: comprises a feeding mechanism for conveying the fishhook pipe and a forming mechanism for forming the fishhook pipe; the forming mechanism comprises a forming device for cutting and punching an agnail at one end of the fishhook pipe, a filling device for filling the elastic core in the fishhook pipe and a bending device for bending the fishhook pipe;

the bending device comprises a first bending device for performing first bending treatment on the fishhook pipe, a second bending device for performing second bending treatment on the fishhook pipe, and a supporting component arranged between the first bending device and the second bending device;

the forming device comprises a tip cutting device for cutting one end of the fishhook pipe and a barb punching device for punching a barb on one end of the fishhook pipe; the tip cutting device comprises a first cutter, a second cutter, a mounting rack and a cutting driving device for driving the first cutter to move; the first cutter is connected with the mounting frame in a sliding mode, the second cutter is fixedly connected with the mounting frame, the first cutter is gradually arranged in an inclined mode, the second cutter is arranged horizontally, the first cutter and the second cutter are arranged in opposite directions, and the output end of the cutting driving device is connected with the first cutter; the barb punching device is connected to the mounting frame in a sliding manner and comprises a sliding block, a barb punching knife and a power driving device for driving the sliding block to slide; the mounting frame is provided with a slide rail, the slide rail is arranged in a gradually inclined manner, a through hole through which the punching knife passes is formed in the mounting frame, the axis of the through hole is intersected with the axis of the fishhook pipe, the slide block is connected with the mounting frame in a sliding manner through the slide rail, the punching knife is connected with one end of the slide block, and the output end of the power driving device is connected with the other end of the slide block;

the forming device, the filling device and the bending device are sequentially arranged along the conveying direction of the feeding mechanism.

2. An apparatus for automated production of flies for fishing according to claim 1, characterised in that: the first bending device comprises a first bending part and a first bending driving device for driving the first bending part to bend the fishhook pipe; the second bending device comprises a second bending part and a second bending driving device for driving the second bending part to bend the fishhook pipe; the support member comprises a support block; the output end of the first bending driving device is connected with the first bending part, and the output end of the second bending driving device is connected with the second bending part.

3. An apparatus for automated production of flies for fishing according to claim 2, characterised in that: the first bending part comprises a first bending block and a second bending block; the second bending block is arranged at one end of the first bending block and is perpendicular to the first bending block; the second bending part comprises a third bending block and a fourth bending block; the fourth bending block is arranged at one end of the third bending block and is perpendicular to the third bending block.

4. An apparatus for automated production of flies for fishing according to claim 3, characterised in that: the bending device is also provided with a supporting device for supporting the fishhook pipe.

5. An apparatus for automated production of flies for fishing according to claim 4, characterised in that: the supporting device comprises a workbench for supporting the fishhook pipe; and a gap for the fish hook pipe to pass through is formed between the supporting block and the workbench.

6. An apparatus for automated production of flies for fishing according to claim 5, characterised in that: the bending device also comprises a feeding device for conveying the fishhook pipe to the workbench.

7. An apparatus for automated production of flies for fishing according to claim 6, characterised in that: the feeding device comprises a clamping device for clamping the fishhook pipe and a rotary driving device for driving the clamping device to rotate.

8. An apparatus for automated production of flies for fishing according to claim 7, wherein: the clamping device comprises a placing table for placing the fishhook pipe and a clamping device matched with the placing table to clamp the fishhook pipe.

9. An apparatus for automated production of flies for fishing according to claim 8, wherein: the clamping device comprises a clamping rod, a clamping block and a lifting driving device for driving the clamping rod to lift; one end of the clamping rod is connected with the clamping block, and the other end of the clamping rod is connected with the output end of the lifting driving device.

10. An apparatus for automated production of flies for fishing according to claim 9, characterised in that: the rotary driving device comprises a rotary column and a rotary cylinder; the output end of the rotary cylinder is connected with the rotary column.

11. An apparatus for automated production of flies for fishing according to claim 10, characterised in that: the clamping device is provided with a plurality of clamping devices which are arranged on the outer circumferential surface of the rotary column in a surrounding mode and are arranged at equal intervals.

12. An apparatus for automated production of flies for fishing according to claim 11, characterised in that: the first cutter is gradually inclined downwards, and the sliding rail is gradually inclined upwards.

13. An apparatus for automated production of flies for fishing according to claim 12, wherein: the filling device comprises an extrusion device for extruding the elastic core into the fishhook pipe and a limiting device for limiting the fishhook pipe; the extrusion device is positioned at one end of the barb of the fishhook pipe, and the limiting device is positioned at the other end of the fishhook pipe.

14. An apparatus for automated production of flies for fishing according to claim 13, wherein: the extrusion device comprises an extrusion block and an extrusion component for extruding the elastic core into the fishhook pipe; the extrusion block is provided with an elastic core and a through hole through which the extrusion component passes; the axis of the perforation is flush with the axis of the fishhook pipe, and the diameter of the perforation is smaller than the inner diameter of the fishhook pipe; the limiting device comprises a limiting block, and the position of the limiting block corresponds to the position of the extrusion block.

15. An apparatus for automated fishhook production according to claim 14, characterised in that: the extrusion component comprises an extrusion rod and an extrusion driving device for driving the extrusion rod to extrude the elastic core; the diameter of the extrusion rod is matched with that of the through hole, and the output end of the extrusion driving device is connected with the extrusion rod.

16. An apparatus for automated fishhook production according to claim 15, characterised in that: the feeding mechanism comprises a discharging device for outputting the fishhook pipes one by one and a conveying device for conveying the fishhook pipes.

17. An apparatus for automated fishhook production according to claim 16, characterised in that: the conveying device comprises a conveying belt and a first transmission driving device for driving the conveying belt to transmit; the conveying belt is provided with a containing groove for containing the fishhook pipe, and the conveying belt is provided with a clamping station corresponding to the clamping device.

18. An apparatus for automated fishhook production according to claim 17, characterised in that: the feeding mechanism further comprises a pressing device which is positioned above the conveying device and used for pressing the fishhook pipe.

19. An apparatus for automated fishhook production according to claim 18 characterised in that: the pressing device comprises a conveyor belt and a second transmission driving device for driving the conveyor belt to transmit.

20. An apparatus for automated fishhook production according to claim 19, characterised in that: the conveying belt and the conveying belt rotate synchronously.

21. An apparatus for automated fishhook production according to claim 20, characterised in that: still include the containing box that collects the fishhook pipe after bending.

22. A method for automatically producing a fish hook using the apparatus for automatically producing a fish hook according to claim 21, comprising the steps of:

s1, cutting and punching barbs on the fishhook pipe;

s2, filling the elastic core into the fishhook pipe;

s3, bending the fishhook pipe;

s4, collecting the bent fishhook pipe;

s5, connecting the elastic core and the fishhook pipe with a fishhook hook respectively;

s6, placing anesthetic in the fishhook tube.

23. A method of automated fishhook production according to claim 22, characterised in that: in S1, one end of the fishhook tube is sharpened by the sharpening device, and the sharpened fishhook tube is subjected to the punching process by the punching device.

24. A method of automated fishhook production according to claim 23, characterised in that: in S2, the elastic core is put into the fishhook tube through the through hole, and then pressed toward the other end of the fishhook tube by the pressing member.

25. A method of automated fishhook production according to claim 24, characterised in that: one end of the elastic core extends out of the fishhook pipe, and the other end of the elastic core extends into the fishhook pipe.

26. A method of automated fishhook production according to claim 25, characterised in that: in S3, the first bending process is performed on the hook pipe, and then the second bending process is performed on the hook pipe.

27. A method of automated fishhook production according to claim 26, characterised in that: the fishhook pipe is conveyed to the workbench through the feeding device, the first bending driving device is driven after the fishhook pipe penetrates through a gap between the supporting block and the workbench, the first bending part moves upwards to perform first bending processing, and the second bending driving device is driven after the first bending processing, so that the second bending part moves rightwards to perform second bending processing.

28. A method of automated fishhook production according to claim 27, characterised in that: in the step S5, one end of the elastic core extending out of the fishhook pipe is fixedly connected with the fishhook hook; the fishhook is connected with the fishhook hook through a tension spring.

29. A method of automated fishhook production according to claim 28, characterised in that: one end of the tension spring is welded with the fishhook hook, and the other end of the tension spring is welded with the fishhook.

30. A method of automated fishhook production according to claim 29, characterised in that: in S6, after the anesthetic is placed in the fishhook tube, a layer of water-soluble film is coated on the end face of the fishhook tube to prevent the anesthetic from falling out.

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