CN110612955A - Automatic production process of fishhook binding device - Google Patents

Abstract

The invention discloses an automatic production process of a fishhook binding device, belonging to the technical field of production processes of fishing gear accessories, and comprising the following steps: step 1, fixing the clamping piece and the inner frame; step 2, mounting fastening screws on the inner frame; step 3, rotating the inner frame to the other side; step 4, fixedly connecting the pressing plate with the inner frame; step 5, installing a steel wire ring on the inner frame; step 6, the pressing plate is arranged on the frame; step 7, inserting and assembling the inner frame and the frame; and 8, mounting a crank. The invention can realize the automatic assembly of the hook binding device, improve the production efficiency, and further improve the assembly efficiency of the hook binding device by dividing the hook binding device into two parts for synchronous assembly; the process of the invention has ingenious design and smooth connection, can save more than 80% of labor, has more than 10-12 times of efficiency and has obvious economic value.

Description

Automatic production process of fishhook binding device

Technical Field

The invention relates to the technical field of fishing gear assembly, in particular to an automatic production process of a fishhook binding device.

Background

The fishhook binding device is a tool for binding a fishhook, and because the fishhook is small, a fishline is thin, the manual binding of the fishhook is inconvenient, the appearance of the binding device replaces the manual binding of the fishhook, and great convenience is provided for fishing enthusiasts.

A fishhook tying device as shown in fig. 1 and 2 comprises a frame 101, an inner frame 102, a crank 103, a traveler 104, a clip 105, a fastening screw 106 and a pressing plate 107. Because the structural shapes of all parts are different, when in production, a plurality of devices need to be matched manually to complete assembly, so that the transportation steps of all parts among different devices are increased, the production efficiency is influenced, deviation can also exist in manual operation, and the production efficiency of the hook binding device is further influenced.

Disclosure of Invention

The invention aims to provide an automatic production process of a fishhook tying device, which aims to solve the technical problem that the fishhook tying device in the prior art is low in production efficiency.

The invention provides an automatic production process of a fishhook binding device, which comprises the following steps:

step 1, fixing the clamping piece and the inner frame: the inner frame is inserted into a conveying groove, the inner frame is fixed through the cooperation of three pressing components, and then the conveying jig is driven to move through the work of a first conveying belt so as to drive the inner frame to move, wherein when the conveying jig does not work with the rotating mechanism, one end of a fixed rod is lifted through the action of a fixed spring, the other end of the fixed rod is pressed downwards so that a fixed inserted rod is inserted into a fixed slot, and the rotation of a rotating sheet can be limited, the inner frame is prevented from rotating, then the clamping pieces are conveyed to the tail ends of the clamping piece conveying rails in a fixed state in sequence through the matched work of the clamping piece vibration feeding disc and the clamping piece conveying rails, the clamping pieces positioned at the tail ends of the conveying rails are clamped through clamping piece air clamps, the clamping pieces are moved onto the inner frame through the matched work of the first lead screw sliding table and the clamping piece mounting air cylinder, and then the clamping pieces and the inner frame are fixed together through the work of a head riveting machine;

step 2, mounting fastening screws on the inner frame: when the inner frame is conveyed to the fastening screw mounting mechanism, the fastening screw conveying belt is used for clamping the fastening screw at the tail end of the fastening screw conveying track through the cooperation of the fastening screw vibration feeding disc and the fastening screw conveying track, then the fastening screw is clamped through the three-jaw chuck, the fastening screw is moved to the position above the corresponding position through the cooperation of the fourth screw rod sliding table and the sliding cylinder, the third screw rod sliding table continuously works to drive the fastening screw to slowly move downwards, meanwhile, the rotating motor works to drive the three-jaw chuck to rotate, so that the fastening screw is screwed into the corresponding screw hole, and the mounting of the fastening screw is completed;

step 3, rotating the inner frame to the other side: after the inner frame is installed with the fastening screws, the rotating sliding block is pushed to move forwards through the working of the rotating air cylinder, so that the rotating prism is inserted into the rotating groove, meanwhile, the ejector rod abuts against one end of the fixing rod, the fixing inserting rod is moved out of the fixing slot, the rotating prism is driven to rotate through the working of the rotating motor, the rotating sheet is rotated under the matching of the rotating prism and the rotating groove, the rotating shaft is driven to rotate, the conveying column is rotated under the matching of the driving gear and the driven gear, the inner frame is driven to rotate 180 degrees, and parts can be installed on the other side of the inner frame;

and step 4, fixedly connecting the pressing plate with the inner frame: the pressing plate is conveyed to the tail end of the pressing plate conveying track through the matched work of the pressing plate vibration feeding disc and the pressing plate conveying track, meanwhile, one end of a pushing piece is driven by a pushing motor to abut against one end of the pressing plate, so that the position of the pressing plate is fixed, the position of a screw hole in the pressing plate is consistent with the position of a corresponding screw hole in an inner frame when the pressing plate is installed, a moving block of the pressing plate is pushed to move through the work of a pressing plate conveying cylinder, the pressing plate is moved to the upper part of the inner frame, the pressing plate is driven downwards through the work of a pressing plate installing cylinder, the pressing plate is attached to the inner frame, and;

and 5, installing a steel wire ring on the inner frame: when the steel wire ring is installed, the pressing block can extrude the steel wire ring from the rear of the steel wire ring along the inclination of the limiting rod, the steel wire ring positioned at the tail end is supported by the supporting plate, then the pressing cylinder works, the limiting rod presses the steel wire ring at the tail end downwards, then the steel wire ring air clamps at two sides clamp two sides of the steel wire ring, two second cylinders synchronously work to pull open two ends of the steel wire ring towards two sides, then the two first cylinders synchronously work to drive the steel wire ring to move to the upper part of the inner frame, the two second cylinders drive in opposite directions to enable two ends of the steel wire ring to be inserted into corresponding holes, and then the two steel wire ring air clamps are loosened to complete the assembly of the steel wire ring;

step 6, the pressing plate is arranged on the frame: meanwhile, the frame is placed in the clamp groove of the jig manually or by a manipulator, then the conveying motor works to drive the conveying disc to rotate so as to drive the frame to move, and the first pressing plate mounting mechanism completes the mounting of the pressing plate on the frame;

and 7, inserting and assembling the inner frame and the frame: then the inner frame and the frame are assembled together through the middle assembling mechanism, the assembled inner frame is clamped through the assembling air clamp, one end of the inner frame is inserted on the frame through the matching work of the fifth screw rod sliding table and the sixth screw rod sliding table, the free insertion of the inner frame cannot be realized due to the width inside the frame, the assembling air clamp and the inner frame can be driven to incline by a certain angle through the work of the assembling motor, one end of the inner frame is aligned to the frame, and the assembling motor slowly restores the assembling air clamp and the inner frame to a horizontal state in the insertion process, so that the insertion assembly of the inner frame and the frame can be realized;

step 8, mounting a crank: carry out the installation of crank at last, press from both sides earlier and get the inner tower through location gas clamp, the cooperation work of first telescopic cylinder and second telescopic cylinder is fixed a position to the inner tower, and simultaneously, artifical or manipulator is pegged graft in proper order the one end of crank at the crank inslot, through the side of the first transport mechanism of crank conveyer belt, crank is got to crank gas clamp, the mounting hole of inner tower one end is aimed at the one end of crank under seventh lead screw slip table and the effect that turns to the motor, seventh lead screw slip table and the tip at the inner tower of twist tight motor cooperation work with the crank.

Further, the clamping piece mounting mechanism, the fastening screw mounting mechanism, the rotating mechanism and the second pressing plate mounting mechanism are sequentially arranged along the length direction of the second conveying mechanism, the middle assembling mechanism is arranged between the first conveying mechanism and the second conveying mechanism, the first pressing plate mounting mechanism and the second pressing plate mounting mechanism are identical in structure, the second conveying mechanism comprises a first conveying belt and a plurality of conveying jigs, the first conveying belt is horizontally arranged, the plurality of conveying jigs are equidistantly arranged on the first conveying belt, each conveying jig is internally provided with a conveying column which is rotatably connected with the conveying jig, a driven gear is sleeved outside the conveying column, a rotating shaft is arranged beside the conveying column, a driving gear is sleeved on the rotating shaft and meshed with the driven gear, and a rotating piece is arranged at one end of the rotating shaft, the utility model discloses a conveying column, including the rotor plate, the transport post, the rotor plate is equipped with the fixed rod of connecting, the rotor plate is equipped with the rotation recess on, be equipped with articulated seat on the transport tool, be equipped with the dead lever of rotating the connection on the articulated seat, the one end of dead lever is equipped with fixed inserted bar, be equipped with on the rotor plate and peg graft complex fixed slot with fixed inserted bar, the other end of dead lever is equipped with fixed spring, the middle part of carrying the post is equipped with the conveyer trough, be equipped with at least three compressing assemblies that are the circumference and distribute on the lateral wall of conveyer trough, every compressing assembly all includes the compression bar, the upper end of compression bar is equipped with a plurality of peg graft pole, every peg graft and all overlap and be equipped with compression spring on the peg pole, it all is equipped.

Compared with the prior art, the invention has the beneficial effects that:

firstly, when the invention is used, the frame is conveyed by the first conveying mechanism, the installation of the press plates on the frame is completed by the first press plate installation mechanism, the number of the press plates on the frame is two, therefore, the number of the first press plate installation mechanisms can be two, the two press plates at different positions on the frame can be installed by the two first press plate installation mechanisms, meanwhile, the inner frame is conveyed by the second conveying mechanism and sequentially passes through the clamping piece installation mechanism, the fastening screw installation mechanism, the rotating mechanism and the second press plate installation mechanism, the clamping pieces are installed by the installation mechanism, the fastening screws are installed by the fastening screw installation mechanism, the rotating mechanism can work by matching with the second conveying mechanism to rotate the inner frame by 180 degrees, the second press plate installation mechanism is used for installing the press plates on the inner frame, and then the installed inner frame is installed on the frame by the middle assembly mechanism, finally, the installation of the crank is completed through the crank installation mechanism;

through the steps, the automatic assembling and processing of the fishhook tying device can be realized, the steps that the existing fishhook tying device needs to be carried among different devices in the production process are reduced, the production speed and the production efficiency of the fishhook tying device are improved, and the labor capacity of workers is reduced.

Secondly, when the binding hook device works, the assembly of the parts at the upper end of the inner frame and the assembly of the parts on the frame can be carried out simultaneously, then the inner frame and the frame are assembled together through the middle assembly mechanism, the overall assembly time of the binding hook device can be effectively reduced through the synchronous assembly of the two parts, and the production efficiency of the binding hook device is further improved;

thirdly, the process design of the invention is ingenious, the connection is smooth, more than 80% of labor can be saved, the efficiency can be more than 10-12 times, and the invention has obvious economic value.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic perspective view of a hook-binding device;

FIG. 2 is a schematic perspective view of a hook binding device;

FIG. 3 is a schematic perspective view of the present invention;

FIG. 4 is a perspective view of the second transport mechanism;

FIG. 5 is a top view of the conveying tool;

FIG. 6 is a cross-sectional view taken along line A-A of FIG. 5;

FIG. 7 is an enlarged view at B in FIG. 6;

FIG. 8 is a perspective view of the clip mounting mechanism;

FIG. 9 is a perspective view of the fastening screw mounting mechanism;

FIG. 10 is a side view of the rotating mechanism;

FIG. 11 is a perspective view of the second platen mounting mechanism;

FIG. 12 is an enlarged view at C of FIG. 11;

FIG. 13 is a first perspective view of the traveler installation mechanism;

FIG. 14 is a second schematic perspective view of the traveler installation mechanism;

FIG. 15 is a partial cross-sectional view of the traveler mounting mechanism;

FIG. 16 is a perspective view of a middle assembly mechanism;

FIG. 17 is a perspective view of the first transport mechanism;

FIG. 18 is a perspective view of the crank mounting mechanism;

FIG. 19 is a flow chart of the production process of the present invention.

Reference numerals:

the device comprises a frame 101, an inner frame 102, a crank 103, a steel wire ring 104, a clamping piece 105, a fastening screw 106, a pressing plate 107, a first conveying mechanism 1, a conveying motor 1001, a conveying disc 1002, a conveying groove 1003, a clamping groove 1004, a conveying jig 1005, a jig clamping groove 1006, a first pressing plate mounting mechanism 2, a crank mounting mechanism 3, a crank conveying belt 31, a crank conveying block 32, a steering motor 33, a steering disc 34, a seventh screw rod 35, a screwing motor 36, a crank air clamp 37, a first telescopic air cylinder 38, a second telescopic air cylinder 39, a positioning air clamp 310, a second conveying mechanism 4, a first conveying belt 41, a conveying jig 42, a conveying column 43, a driven gear 44, a rotating shaft 45, a driving gear 46, a rotating sheet 47, a rotating groove 48, a hinged seat 49, a fixing rod 410, a fixing inserted rod 411, a fixing slot 412, a fixing spring 413, a conveying groove 414, a pressing component 415, a pressing rod 416 and an inserted rod 417, a pressing spring 418, a plug-in groove 419, a pressing wheel 420, a clip mounting mechanism 5, a riveting machine 51, a clip vibration feeding tray 52, a clip conveying rail 53, a clamping opening 54, a first screw rod sliding table 55, a clip mounting cylinder 56, a clip mounting air clamp 57, a second screw rod sliding table 58, a third screw rod sliding table 59, a fastening screw mounting mechanism 6, a fastening screw vibration feeding tray 61, a fastening screw conveying rail 62, a sliding rail 63, a sliding block 64, a sliding cylinder 65, a fourth screw rod sliding table 66, a rotating motor 67, a three-jaw chuck 68, an extrusion sliding rail 69, an extrusion sliding block 610, an extrusion cylinder 611, an extrusion groove 612, a rotating mechanism 7, a rotating sliding rail 71, a rotating sliding block 72, a rotating cylinder 73, a rotating motor 74, a rotating prism 75, an ejector pin 76, a second press plate mounting mechanism 8, a press plate vibration feeding tray 81, an automatic screw machine 82, a press plate conveying rail 83, a, the steel wire ring assembling mechanism comprises a pushing motor 85, a pushing sheet 86, a clamping notch 87, a pressing plate moving frame 88, a guide rod 89, a pressing plate conveying cylinder 811, a pressing plate installing cylinder 812, a pressing plate air clamp 813, a steel wire ring installing mechanism 9, a steel wire ring frame 91, a limiting rod 92, a rotating rod 93, an arc-shaped rod 94, a pressing block 95, a baffle 96, a bearing plate 97, a bearing spring 98, a pressing cylinder 99, a pressing plate 910, a steel wire ring installing assembly 911, a first cylinder 9111, a second cylinder 9112, a steel wire ring air clamp 9113, a middle assembling mechanism 11, a fifth screw rod sliding table 111, a sixth screw rod sliding table 112, a fixing block 113, an assembling motor 114, a transmission shaft 115, an assembling air clamp 116 and a transmission wheel 117.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 19, an embodiment of the present invention provides an automatic production process of a fishhook binding device, including the following steps:

step 1, fixing the clamping piece and the inner frame: the device is provided with a first transportation mechanism 1, a first pressing plate installation mechanism 2, a crank installation mechanism 3, a second transportation mechanism 4, a clamping piece installation mechanism 5, a fastening screw installation mechanism 6, a rotation mechanism 7, a second pressing plate installation mechanism 8, a steel wire ring installation mechanism 9 and a middle assembly mechanism 11, wherein the first transportation mechanism 1 is arranged at the tail end of the second transportation mechanism 4, the first pressing plate installation mechanism 2 and the crank installation mechanism 3 are both arranged at the side of the first transportation mechanism 1, when the device works, an inner frame 102 is inserted into a conveying groove 414, the inner frame 102 is fixed through the matching of three pressing components 415, then a first conveying belt 41 works to drive a conveying jig 42 to move so as to drive the inner frame 102 to move, wherein when the conveying jig 42 does not work with the rotation mechanism 7 in a matching way, one end of a fixed rod 410 is lifted through the action of a fixed spring 413, the other end of the fixed rod 410 is pressed downwards so that a fixed insertion rod 411 is inserted into a fixed insertion groove, the rotation of the rotating sheet 47 can be limited, and the rotation of the inner frame 102 is avoided;

step 2, mounting fastening screws on the inner frame: then, the clamping pieces 105 are sequentially conveyed to the tail ends of the clamping piece conveying rails 53 in a fixed state through the matching work of the clamping piece vibration feeding tray 52 and the clamping piece conveying rails 53, the clamping pieces 105 positioned at the tail ends of the conveying rails are clamped through the air clamping of the clamping pieces 105, the clamping pieces 105 are moved to the inner frame 102 through the matching work of the first lead screw sliding table 55 and the clamping piece mounting air cylinder 56, and then the head riveting machine 51 works to fix the clamping pieces 105 and the inner frame 102 together. When the inner frame 102 is conveyed to the fastening screw mounting mechanism 6, the fastening screw 106 is conveyed to the tail end of the fastening screw conveying rail 62 by the fastening screw vibrating feeding disc 61 and the fastening screw conveying rail 62 in a matching mode, then the fastening screw 106 is clamped by the three-jaw chuck 68, the fastening screw 106 is moved to the upper side of the corresponding position by the matching operation of the fourth screw rod sliding table 66 and the sliding cylinder 65, the third screw rod sliding table 59 continues to work to drive the fastening screw 106 to move downwards slowly, meanwhile, the rotating motor 67 works to drive the three-jaw chuck 68 to rotate, so that the fastening screw 106 is screwed into the corresponding screw hole, and the mounting of the fastening screw 106 is completed;

step 3, rotating the inner frame to the other side: after the inner frame 102 finishes the installation of the fastening screw 106, the rotating cylinder 73 works to push the rotating slider 72 to move forward, so that the rotating prism 75 is inserted into the rotating groove 48, meanwhile, the ejector rod 76 abuts against one end of the fixing rod 410, so that the fixing insertion rod 411 moves out of the fixing slot 412, the rotating motor 74 works to drive the rotating prism 75 to rotate, the rotating sheet 47 rotates under the matching of the rotating prism 75 and the rotating groove 48, the rotating shaft 45 is driven to rotate, the conveying column 43 rotates under the matching of the driving gear 46 and the driven gear 44, the inner frame 102 is driven to rotate 180 degrees, and parts can be installed on the other side of the inner frame 102;

and step 4, fixedly connecting the pressing plate with the inner frame: the pressing plate 107 is conveyed to the tail end of the pressing plate conveying track 83 through the matched work of the pressing plate vibration feeding disc 81 and the pressing plate conveying track 83, meanwhile, one end of a pushing sheet 86 is driven by a pushing motor 85 to abut against one end of the pressing plate 107, so that the position of the pressing plate 107 is fixed, the position of a screw hole in the pressing plate 107 is guaranteed to be consistent with the position of a corresponding screw hole in the inner frame 102 when the pressing plate is installed, a pressing plate moving block is pushed to move through the work of a pressing plate conveying cylinder 811, the pressing plate 107 is moved to the upper side of the inner frame 102, the pressing plate installing cylinder 812 is driven downwards to enable the pressing plate 107 to be attached to the inner frame 102, and the pressing plate 107 and the inner frame 102 are;

and 5, installing a steel wire ring on the inner frame: when the bead ring 104 is installed, the pressing block 95 presses the bead ring 104 from the rear of the bead ring 104 along the inclination of the limiting rod 92, the bead ring 104 positioned at the tail end is supported by the supporting plate 97 and works by the pressing-down cylinder 99, the limiting rod 910 presses the bead ring 104 at the tail end downwards, the two sides of the bead ring 104 are clamped by the bead ring air clamps 9113 at the two sides, the two second cylinders 9112 synchronously work to pull the two ends of the bead ring 104 open towards the two sides, the two first cylinders 9111 synchronously work to drive the bead ring 104 to move to the upper part of the inner frame 102, the two second cylinders 9112 drive in opposite directions, so that the two ends of the bead ring 104 are inserted into corresponding holes, and then the two bead ring air clamps 9113 are loosened to complete the assembly of the bead ring 104;

step 6, the pressing plate is arranged on the frame: meanwhile, the frame 101 is placed in the jig clamping groove 1006 manually or by a manipulator, then the transportation motor 1001 works to drive the transportation disc 1002 to rotate, so as to drive the frame 101 to move, and the first pressing plate mounting mechanism 2 completes the mounting of the pressing plate 107 on the frame 101;

and 7, inserting and assembling the inner frame and the frame: then, the inner frame 102 and the frame 101 are assembled together through the middle assembling mechanism 11, the assembled inner frame 102 is clamped through the assembling air clamp 116, one end of the inner frame 102 is inserted into the frame 101 through the matching work of the fifth screw rod sliding table 111 and the sixth screw rod sliding table 112, the free insertion of the inner frame 102 cannot be realized due to the width inside the frame 101, therefore, the assembling air clamp 116 and the inner frame 102 can be driven to incline at a certain angle through the work of the assembling motor 114, then, one end of the inner frame 102 is aligned to the frame 101, and in the inserting process, the assembling motor 114 works to enable the assembling air clamp 116 and the inner frame 102 to be slowly restored to the horizontal state, so that the inserting assembly of the inner frame 102 and the frame 101 can be realized;

step 8, mounting a crank: and then installing the crank 103, clamping the inner frame 102 through a positioning air clamp 310, positioning the position of the inner frame 102 through the matching work of the first telescopic air cylinder 38 and the second telescopic air cylinder 39, simultaneously inserting one end of the crank 103 into a crank groove in sequence by manpower or a mechanical hand, clamping the crank 103 by the crank conveying belt 31 at the side of the first conveying mechanism 1 of the crank conveying belt 31, aligning one end of the crank 103 to an installation hole at one end of the inner frame 102 under the action of a seventh screw rod 35 and a steering motor 33, and installing the crank 103 at the end part of the inner frame 102 through the matching work of the seventh screw rod 35 and a screwing motor 36.

The clamping piece mounting mechanism 5, the fastening screw mounting mechanism 6, the rotating mechanism 7 and the second pressing plate mounting mechanism 8 are sequentially arranged along the length direction of the second conveying mechanism 4, the middle assembling mechanism 11 is arranged between the first conveying mechanism 1 and the second conveying mechanism 4, and the first pressing plate mounting mechanism 2 and the second pressing plate mounting mechanism 8 are identical in structure;

when the invention is used, the frame 101 is conveyed by the first conveying mechanism 1, the installation of the pressing plates 107 on the frame 101 is completed by the first pressing plate installation mechanisms 2, the number of the first pressing plate installation mechanisms 2 can be two because the number of the pressing plates 107 on the frame 101 is two, the two pressing plates 107 at different positions on the frame 101 can be installed by the two first pressing plate installation mechanisms 2, meanwhile, the inner frame 102 is conveyed by the second conveying mechanism 4 and passes through the clamping piece installation mechanisms 5, the fastening screw installation mechanisms 6, the rotating mechanisms 7 and the second pressing plate installation mechanisms 8 in sequence, the clamping pieces 105 are installed by the clamping piece installation mechanisms 5, the fastening screws 106 are installed by the fastening screw installation mechanisms 6, the rotating mechanisms 7 can cooperate with the second conveying mechanism 4 to work so that the inner frame 102 rotates 180 degrees, the second pressing plate installation mechanisms 8 are used for installing the pressing plates 107 on the inner frame 102, then, the mounted inner frame 102 is mounted on the frame 101 by the middle assembly mechanism 11, and finally, the crank 103 is mounted by the crank mounting mechanism 3.

Specifically, the second transportation mechanism 4 includes a first transportation belt 41 and a plurality of transportation jigs 42, the first transportation belt 41 is horizontally disposed, the plurality of transportation jigs 42 are equidistantly mounted on the first transportation belt 41, each transportation jig 42 is internally provided with a transportation column 43 rotatably connected with the transportation column, a driven gear 44 is sleeved outside the transportation column 43, a rotation shaft 45 is arranged beside the transportation column 43, a driving gear 46 is sleeved on the rotation shaft 45, the driving gear 46 is engaged with the driven gear 44, one end of the rotation shaft 45 is provided with a rotation plate 47, the rotation plate 47 is provided with a rotation groove 48, the transportation jig 42 is provided with a hinge seat 49, the hinge seat 49 is provided with a fixing rod 410 rotatably connected, one end of the fixing rod 410 is provided with a fixed insertion rod 411, the rotation plate 47 is provided with a fixed insertion slot 412 engaged with the fixed insertion rod 411 in an insertion manner, the other end of the fixed rod 410 is provided with a fixed spring 413, the middle part of the conveying column 43 is provided with a conveying groove 414, the side wall of the conveying groove 414 is provided with at least three pressing components 415 which are circumferentially distributed, each pressing component 415 comprises a pressing rod 416, the upper end of the pressing rod 416 is provided with a plurality of insertion rods 417, each insertion rod 417 is sleeved with a pressing spring 418, an insertion groove 419 which is in insertion fit with each insertion rod 417 is arranged in the conveying column 43 corresponding to the insertion rod 417, and the lower end of the pressing rod 416 is provided with a plurality of pressing wheels 420 which are distributed at equal intervals; during the use, peg graft the inner frame 102 in the conveyer trough 414, it is fixed with the inner frame 102 through the cooperation of three subassembly 415 that compresses tightly, later drive through the work of first conveyer belt 41 and carry tool 42 to remove and then drive the inner frame 102 and remove, wherein, when carrying tool 42 not with slewing mechanism 7 cooperation work, thereby the effect through fixed spring 413 makes the one end of dead lever 410 lift, thereby the other end of dead lever 410 pushes down and makes fixed inserted bar 411 peg graft in fixed slot 412, and then can restrict rotor plate 47 and rotate, avoid the inner frame 102 to rotate.

Specifically, the clamping piece mounting mechanism 5 comprises a riveting machine 51 and a clamping piece vibration feeding disc 52, a clamping piece conveying track 53 is arranged on the clamping piece vibration feeding disc 52, a clamping opening 54 is formed in the tail end of the clamping piece conveying track 53, a first lead screw sliding table 55 is arranged beside the clamping piece vibration feeding disc 52, a clamping piece mounting air cylinder 56 is arranged on a sliding block of the first lead screw sliding table 55, a clamping piece mounting air clamp 57 is arranged at the conveying end of the clamping piece mounting air cylinder 56, the clamping opening 54 is matched with the clamping piece mounting air clamp 57, a second lead screw sliding table 58 and a third lead screw sliding table 59 are arranged at the lower end of the riveting machine 51, the third lead screw sliding table 59 is mounted at the upper end of the second lead screw sliding table 58, and the riveting machine 51 is mounted on the third lead screw sliding; through the clamping piece vibration charging tray 52 and the clamping piece conveying track 53 cooperation work with the clamping piece 105 according to the fixed state transport to the end of clamping piece conveying track 53 in proper order, afterwards, press from both sides the clamping piece 105 who gets to be located the conveying track end through clamping piece 105 gas clamp, the cooperation work of rethread first lead screw slip table 55 and clamping piece installation cylinder 56 removes clamping piece 105 to inner tower 102 on, later first riveter 51 work is in the same place clamping piece 105 and inner tower 102 are fixed, wherein, riveter 51 adopts prior art, give unnecessary description here, second lead screw slip table 58 and third lead screw slip table 59 mutually perpendicular set up, be convenient for adjust the position of riveter 51, thereby install the rivet of different positions.

Specifically, the fastening screw mounting mechanism 6 includes a fastening screw vibration feeding disc 61, a fastening screw conveying track 62 is arranged on the fastening screw vibration feeding disc 61, a sliding track 63 is arranged beside the fastening screw conveying track 62, a sliding block 64 and a sliding cylinder 65 are arranged at the upper end of the sliding track 63, the output end of the sliding cylinder 65 is fixedly connected with the sliding block 64, a fourth lead screw sliding table 66 is arranged at the upper end of the sliding block 64, a rotating motor 67 is arranged on a sliding block of the fourth lead screw sliding table 66, a three-jaw chuck 68 is arranged at the output end of the rotating motor 67, an extrusion sliding rail 69 is arranged beside the sliding track 63, an extrusion sliding block 610 and an extrusion cylinder 611 fixedly connected with the extrusion sliding block 610 are arranged at the upper end of the extrusion sliding rail 69, and an extrusion groove 612 is arranged at the upper end of the extrusion sliding; carry fastening screw 106 through fastening screw vibration feeding plate 61 and fastening screw delivery track 62 cooperation work to fastening screw delivery track 62's end with fastening screw 106, later get fastening screw 106 through three-jaw chuck 68 clamp, the cooperation work of rethread fourth lead screw slip table 66 and slide cylinder 65 moves fastening screw 106 to the top that corresponds the position, third lead screw slip table 59 continues work and drives fastening screw 106 and slowly move down, and simultaneously, rotating electrical machines 67 work drives three-jaw chuck 68 and rotates, and then make fastening screw 106 screw in the screw hole that corresponds, accomplish the installation of fastening screw 106.

Specifically, the rotating mechanism 7 includes a rotating slide rail 71, a rotating slide block 72 in sliding fit with the rotating slide rail 71 is arranged on the rotating slide rail 71, a rotating cylinder 73 fixedly connected with the rotating slide block 72 is arranged on the rotating slide rail 71, a rotating motor 74 is arranged at the upper end of the rotating slide block 72, a rotating prism 75 matched with the rotating groove 48 is arranged at the output end of the rotating motor 74, and a push rod 76 matched with the fixing rod 410 is arranged at the front end of the rotating slide block 72; during the use, promote through the work of revolving cylinder 73 and rotate slider 72 and move forward, make and rotate prismatic 75 grafting in rotating groove 48, simultaneously, ejector pin 76 withstands the one end of dead lever 410, make fixed inserted bar 411 remove from fixed slot 412, rethread rotates motor 74 work and drives and rotate prismatic 75 rotatoryly, make the rotor plate 47 rotate under the cooperation of rotating prismatic 75 and rotating groove 48, and then drive axis of rotation 45 rotatory, make the transport column 43 rotate under the cooperation of driving gear 46 and driven gear 44, thereby drive inner tower 102 and rotate 180 degrees, can install the spare part at the opposite side of inner tower 102.

Specifically, the second pressing plate mounting mechanism 8 comprises a pressing plate vibration feeding disc 81 and an automatic screw machine 82, a pressing plate conveying track 83 is arranged on the pressing plate vibration feeding disc 81, a pushing shaft 84 and a pushing motor 85 are arranged at the tail end of the pressing plate conveying track 83, the output end of the pushing motor 85 is fixedly connected with the pushing shaft 84, two pushing pieces 86 are arranged on the pushing shaft 84, a clamping gap 87 is arranged at the tail end of the pressing plate conveying track 83, a pressing plate moving frame 88 is arranged beside the pressing plate conveying track 83, two guide rods 89 and a pressing plate moving block sleeved on the two guide rods 89 are arranged on the pressing plate moving frame 88, a pressing plate conveying cylinder 811 with an output end fixedly connected with the pressing plate moving block is arranged on the pressing plate moving frame 88, a pressing plate mounting cylinder 812 is arranged on the pressing plate moving block, and a pressing plate air clamp fixedly connected with the pressing plate mounting cylinder 813 is arranged on, the automatic screw machine 82 is arranged beside the pressure plate moving frame 88; the pressing plate 107 is conveyed to the tail end of the pressing plate conveying track 83 through the matching work of the pressing plate vibration feeding plate 81 and the pressing plate conveying track 83, meanwhile, one end of the pushing plate 86 is driven by the pushing motor 85 to abut against one end of the pressing plate 107, the position of the pressing plate 107 is fixed, the situation that the position of a screw hole in the pressing plate 107 is consistent with the position of a corresponding screw hole in the inner frame 102 when the pressing plate is installed is guaranteed, the pressing plate moving block is pushed to move through the work of the pressing plate conveying cylinder 811, the pressing plate 107 is moved to the upper side of the inner frame 102, the pressing plate 107 is driven downwards through the work of the pressing plate installing cylinder 812, the pressing plate 107 is attached to the inner frame 102, the pressing plate 107 and the inner frame 102 are fixedly connected through the installing screw of the automatic screw machine.

Specifically, the bead ring mounting mechanism 9 includes a bead ring frame 91, two limiting rods 92 are disposed at the upper end of the bead ring frame 91, a rotating rod 93 for connecting the two limiting rods 92 is disposed at one end of the two limiting rods 92, the rotating rod 93 is rotatably connected with the bead ring frame 91, the other ends of the two limiting rods 92 are connected through an arc-shaped rod 94, a pressing block 95 is sleeved on the two limiting rods 92, the pressing block 95 is in sliding fit with the two limiting rods 92, a groove body in sliding fit with the upper end of the bead ring frame 91 is disposed at the lower end of the pressing block 95, a baffle 96 is disposed at the tail end of the bead ring frame 91, a bearing plate 97 is disposed in the baffle 96, one end of the bearing plate 97 is rotatably connected with the baffle 96, a bearing spring 98 is disposed between the bearing plate 97 and the baffle 96, a pressing cylinder 99 is disposed at the upper end of the bead ring frame 91, a limiting rod 910 is disposed at the, the limiting rod 910 is positioned between the baffle 96 and the tail end of the steel wire ring frame 91, the steel wire ring installation components 911 are arranged on two sides of the steel wire ring frame 91, each steel wire ring installation component 911 comprises a first cylinder 9111 which is vertically and downwardly arranged, a second cylinder 9112 which is horizontally arranged is arranged on the output end of the first cylinder 9111, and a steel wire ring air clamp 9113 is arranged on the output end of the second cylinder 9112; the two limiting rods 92 are rotated, then the steel wire rings 104 are sequentially stacked on the steel wire ring frame 91, then the two limiting rods 92 are rotated to the positions above two sides of the steel wire ring 104, the steel wire ring 104 is prevented from deviating, the pressing block 95 can press the steel wire ring 104 from the rear of the steel wire ring 104 along the inclination of the limiting rods 92, the steel wire ring 104 at the tail end is supported by the supporting plate 97 and works by the lower pressing air cylinder 99, the limiting rod 910 presses the steel wire ring 104 at the tail end downwards, two sides of the steel wire ring 104 are clamped by the steel wire ring air clamps 9113 at two sides, two second air cylinders 9112 synchronously work to pull open two ends of the steel wire ring 104 towards two sides, the two first air cylinders 9111 synchronously work to drive the steel wire ring 104 to move to the upper part of the inner frame 102, the two second air cylinders 9112 are driven oppositely, two ends of the steel wire ring 104 are inserted into corresponding holes, and then the two steel wire ring air clamps 9113 are loosened, the assembly of bead ring 104 is completed.

Specifically, the first transportation mechanism 1 comprises a transportation motor 1001 and a transportation disc 1002, the transportation motor 1001 is arranged vertically upwards, the lower end of the transportation disc 1002 is fixedly connected with the output end of the transportation motor 1001, a plurality of transportation grooves 1003 in the circumferential part are arranged on the transportation disc 1002, a clamping groove 1004 and a transportation jig 1005 clamped with the clamping groove 1004 are arranged on the side wall of each transportation groove 1003, and a jig clamping groove 1006 is arranged on each transportation jig 1005; the frame 101 is placed in the jig clamping groove 1006 manually or by a manipulator, and then the transportation motor 1001 works to drive the transportation disc 1002 to rotate, so as to drive the frame 101 to move, and the first pressing plate mounting mechanism 2 completes the mounting of the pressing plate 107 on the frame 101.

Specifically, the middle assembly mechanism 11 includes a fifth screw rod sliding table 111, a sixth screw rod sliding table 112 is disposed on a sliding block of the fifth screw rod sliding table 111, a fixed block 113 is disposed on the sixth screw rod sliding table 112, an assembly motor 114 is disposed at an upper end of the fixed block 113, a transmission shaft 115 is disposed at a lower portion of the fixed block 113, an assembly air clamp 116 fixedly connected to one end of the transmission shaft 115 is disposed at one end of the transmission shaft 115, transmission wheels 117 are disposed at the other end of the transmission shaft 115 and an output end of the assembly motor 114, the two transmission wheels 117 are connected by a belt, the inner frame 102 which is completely installed is clamped by the assembly air clamp 116, one end of the inner frame 102 is inserted into the frame 101 by cooperation of the fifth screw rod sliding table 111 and the sixth screw rod sliding table 112, because the width inside the frame 101 cannot realize free insertion of the inner frame 102, the assembly air clamp 116 and the inner frame 102 can be driven to incline by operation, then, one end of the inner frame 102 is aligned with the frame 101, and during the plugging process, the assembling motor 114 works to make the assembling air clamp 116 and the inner frame 102 slowly return to the horizontal state, so that the plugging assembly of the inner frame 102 and the frame 101 can be realized.

Specifically, the crank mounting mechanism 3 includes a crank conveying belt 31, a plurality of crank conveying blocks 32 are arranged on the crank conveying belt 31, a crank slot which is in plug-in fit with the crank 103 is arranged on each crank conveying block 32, a steering motor 33 is arranged between the crank conveying belt 31 and the first conveying mechanism 1, a steering disc 34 is arranged on the output end of the steering motor 33, a seventh lead screw sliding table 35 is arranged on the steering disc 34, a tightening motor 36 is arranged on a sliding block of the seventh lead screw sliding table 35, a crank air clamp 37 is arranged on the output end of the tightening motor 36, a first telescopic air cylinder 38 is arranged beside the first conveying mechanism 1, a second telescopic air cylinder 39 is arranged on the output end of the first telescopic air cylinder 38, and a positioning air clamp 310 is arranged on the output end of the second telescopic air cylinder 39; during operation, the inner frame 102 is clamped through the positioning air clamp 310, the position of the inner frame 102 is positioned through cooperation of the first telescopic air cylinder 38 and the second telescopic air cylinder 39, meanwhile, one end of the crank 103 is sequentially inserted into the crank slot through a manual or mechanical arm, the crank conveyer belt 31 is arranged beside the first conveying mechanism 1 of the crank conveyer belt 31 through the crank conveyer belt 31, the crank 103 is clamped through the crank air clamp 37, one end of the crank 103 is aligned to the mounting hole in one end of the inner frame 102 under the action of the seventh screw rod sliding table 35 and the steering motor 33, and the crank 103 is mounted at the end of the inner frame 102 through cooperation of the seventh screw rod sliding table 35 and the screwing motor 36.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. An automatic production process of a fishhook binding device is characterized by comprising the following steps:

step 1, fixing the clamping piece and the inner frame: the inner frame conveying device is provided with a first conveying mechanism (1), a first pressing plate mounting mechanism (2), a crank mounting mechanism (3), a second conveying mechanism (4), a clamping piece mounting mechanism (5), a fastening screw mounting mechanism (6), a rotating mechanism (7), a second pressing plate mounting mechanism (8), a steel wire ring mounting mechanism (9) and a middle assembling mechanism (11), wherein the first conveying mechanism (1) is arranged at the tail end of the second conveying mechanism (4), the first pressing plate mounting mechanism (2) and the crank mounting mechanism (3) are arranged at the side of the first conveying mechanism (1), firstly, the inner frame (102) is inserted into a conveying groove (414), the inner frame (102) is fixed through the matching of three pressing components (415), and then, a first conveying belt (41) works to drive a conveying jig (42) to move so as to drive the inner frame (102) to move, wherein, when the conveying jig (42) does not work with the rotating mechanism (7), one end of the fixed rod (410) is lifted up under the action of the fixed spring (413), the other end of the fixed rod (410) is pressed down, so that the fixed inserted rod (411) is inserted into the fixed slot (412), thereby restricting the rotation of the rotary piece (47) and preventing the rotation of the inner frame (102), the clamping pieces (105) are sequentially conveyed to the tail ends of the clamping piece conveying rails (53) in a fixed state through the matching work of the clamping piece vibration feeding disc (52) and the clamping piece conveying rails (53), the clamping pieces (105) positioned at the tail ends of the conveying rails are clamped through air clamping of the clamping pieces (105), the clamping pieces (105) are moved to the inner frame (102) through the matching work of the first screw rod sliding table (55) and the clamping piece mounting air cylinder (56), and then the clamping pieces (105) and the inner frame (102) are fixed together through the work of the head riveting machine (51);

step 2, mounting fastening screws on the inner frame: when the inner frame (102) is conveyed to the fastening screw mounting mechanism (6), the fastening screw vibrates the upper charging tray (61) and the fastening screw conveying track (62) to work in a matched mode to convey the tail end of the fastening screw conveying track (62) through the fastening screw, then the fastening screw (106) is clamped through the three-jaw chuck (68), the fastening screw (106) is moved to the position above the corresponding position through the matched work of the fourth screw rod sliding table (66) and the sliding cylinder (65), the third screw rod sliding table (59) continues to work to drive the fastening screw (106) to move downwards slowly, meanwhile, the rotating motor (67) works to drive the three-jaw chuck (68) to rotate, the fastening screw (106) is further screwed into the corresponding screw hole, and mounting of the fastening screw (106) is completed;

step 3, rotating the inner frame to the other side: after the inner frame (102) completes installation of the fastening screw (106), the rotating sliding block (72) is pushed to move forwards through working of the rotating air cylinder (73), the rotating prism (75) is connected in the rotating groove (48) in an inserting mode, meanwhile, the ejector rod (76) abuts against one end of the fixing rod (410), the fixing inserting rod (411) moves out of the fixing slot (412), the rotating prism (75) is driven to rotate through working of the rotating motor (74), the rotating sheet (47) rotates under matching of the rotating prism (75) and the rotating groove (48), the rotating shaft (45) is driven to rotate, the conveying column (43) rotates under matching of the driving gear (46) and the driven gear (44), the inner frame (102) is driven to rotate 180 degrees, and parts can be installed on the other side of the inner frame (102);

and step 4, fixedly connecting the pressing plate with the inner frame: the pressing plate (107) is conveyed to the tail end of the pressing plate conveying track (83) through the matching work of the pressing plate vibration feeding disc (81) and the pressing plate conveying track (83), meanwhile, one end of a pushing piece (86) is driven to abut against one end of the pressing plate (107) through a pushing motor (85), the position of the pressing plate (107) is fixed, it is guaranteed that the position of a screw hole in the pressing plate (107) is consistent with the position of a corresponding screw hole in the inner frame (102) when the pressing plate is installed, then a pressing plate conveying cylinder (811) works to push a pressing plate moving block to move, the pressing plate (107) is moved to the upper side of the inner frame (102), the pressing plate installing cylinder (812) works to drive the pressing plate (107) downwards, the pressing plate (107) is attached to the inner frame (102), and screws are installed on an automatic screw machine (82) to fixedly connect the pressing plate (107;

and 5, installing a steel wire ring on the inner frame: when the steel wire ring (104) is installed, the pressing block (95) can extrude the steel wire ring (104) from the rear part of the steel wire ring (104) along the inclination of the limiting rod (92), the steel wire ring (104) positioned at the tail end is supported by the supporting plate (97), then the pressing cylinder (99) works, the limiting rod (910) presses the steel wire ring (104) at the tail end downwards, then the two sides of the steel wire ring (104) are clamped by the steel wire ring air clamps (9113) at the two sides, the two second cylinders (9112) synchronously work to pull the two ends of the steel wire ring (104) towards the two sides, then the two first cylinders (9111) synchronously work to drive the steel wire ring (104) to move to the upper part of the inner frame (102), and the two second cylinders (9112) are driven in opposite directions, two ends of the steel wire ring (104) are inserted into the corresponding holes, and then the two steel wire ring air clamps (9113) are loosened to complete the assembly of the steel wire ring (104);

step 6, the pressing plate is arranged on the frame: meanwhile, the frame (101) is placed in the jig clamping groove (1006) manually or by a manipulator, then the transportation motor (1001) works to drive the transportation disc (1002) to rotate to drive the frame (101) to move, and the first pressing plate mounting mechanism (2) completes the mounting of the pressing plate (107) on the frame (101);

and 7, inserting and assembling the inner frame and the frame: then, the inner frame (102) and the frame (101) are assembled together through the middle assembling mechanism (11), the assembled inner frame (102) is clamped through the assembling air clamp (116), one end of the inner frame (102) is inserted into the frame (101) through the matching work of the fifth screw rod sliding table (111) and the sixth screw rod sliding table (112), the inner frame (102) cannot be freely inserted into the frame (101), the assembling air clamp (116) and the inner frame (102) can be driven to incline by a certain angle through the work of the assembling motor (114), one end of the inner frame (102) is aligned to the frame (101), and in the inserting process, the assembling motor (114) works to enable the assembling air clamp (116) and the inner frame (102) to be slowly restored to the horizontal state, so that the inserting assembling of the inner frame (102) and the frame (101) can be realized;

step 8, mounting a crank: and finally, installing the crank (103), clamping the inner frame (102) through a positioning air clamp (310), positioning the position of the inner frame (102) through the cooperation of a first telescopic air cylinder (38) and a second telescopic air cylinder (39), meanwhile, sequentially inserting one end of the crank (103) into a crank groove through a manual or mechanical hand, aligning one end of the crank (103) to an installation hole at one end of the inner frame (102) under the action of a seventh lead screw sliding table (35) and a steering motor (33), and installing the crank (103) at the end part of the inner frame (102) through the cooperation of the seventh lead screw sliding table (35) and a screwing motor (36).

2. The automatic production process of a fishhook binding device according to claim 1, characterized in that: the clamping piece mounting mechanism (5), the fastening screw mounting mechanism (6), the rotating mechanism (7) and the second pressing plate mounting mechanism (8) are sequentially arranged along the length direction of the second conveying mechanism (4), the middle assembling mechanism (11) is arranged between the first conveying mechanism (1) and the second conveying mechanism (4), the first pressing plate mounting mechanism (2) and the second pressing plate mounting mechanism (8) are identical in structure, the second conveying mechanism (4) comprises a first conveying belt (41) and a plurality of conveying jigs (42), the first conveying belt (41) is horizontally arranged, the plurality of conveying jigs (42) are equidistantly arranged on the first conveying belt (41), each conveying jig (42) is internally provided with a conveying column (43) which is rotatably connected with the conveying jig, and a driven gear (44) is sleeved outside the conveying column (43), the side of carrying post (43) is equipped with axis of rotation (45), the cover is equipped with driving gear (46) on axis of rotation (45), driving gear (46) and driven gear (44) meshing, the one end of axis of rotation (45) is equipped with rotor (47), be equipped with rotation recess (48) on rotor (47), be equipped with articulated seat (49) on carrying tool (42), be equipped with on articulated seat (49) and rotate the dead lever (410) of connecting, the one end of dead lever (410) is equipped with fixed inserted bar (411), be equipped with on rotor (47) with fixed inserted bar (411) grafting complex fixed slot (412), the other end of dead lever (410) is equipped with fixed spring (413), the middle part of carrying post (43) is equipped with conveying trough (414), be equipped with on the lateral wall of conveying trough (414) at least three compress tightly subassembly (415) that are the circumference and distribute, each compress tightly subassembly (415) all includes compressing tightly pole (416), the upper end that compresses tightly pole (416) is equipped with a plurality of peg graft pole (417), every peg graft pole (417) are gone up all to overlap and are equipped with pressure spring (418), it all is equipped with one rather than grafting complex inserting groove (419) to correspond every peg graft pole (417) in transport post (43), the lower extreme that compresses tightly pole (416) is equipped with a plurality of equidistant pinch roller (420) that distributes.

3. The automatic production process of the fishhook binding device according to claim 2, which is characterized in that: the clamping piece mounting mechanism (5) comprises a riveting machine (51) and a clamping piece vibration feeding disc (52), a clamping piece conveying track (53) is arranged on the clamping piece vibration feeding tray (52), a clamping opening (54) is arranged at the tail end of the clamping piece conveying track (53), a first screw rod sliding table (55) is arranged beside the clamping piece vibration feeding disc (52), a clamping piece mounting cylinder (56) is arranged on a sliding block of the first screw rod sliding table (55), a clip mounting air clamp (57) is arranged at the conveying end of the clip mounting cylinder (56), the clamping opening (54) is matched with a clamping piece mounting air clamp (57), a second screw rod sliding table (58) and a third screw rod sliding table (59) are arranged at the lower end of the riveting machine (51), the third screw rod sliding table (59) is arranged at the upper end of the second screw rod sliding table (58), and the riveting machine (51) is arranged on the third screw rod sliding table (59).

4. The automatic production process of the fishhook binding device according to claim 2, which is characterized in that: fastening screw installation mechanism (6) are equipped with fastening screw delivery track (62) on charging tray (61) including the fastening screw vibration, the fastening screw vibration is gone up, the side of fastening screw delivery track (62) is equipped with slip track (63), the upper end of slip track (63) is equipped with sliding block (64) and sliding cylinder (65), the output and sliding block (64) fixed connection of sliding cylinder (65), be equipped with fourth lead screw slip table (66) on the upper end of sliding block (64), be equipped with rotating electrical machines (67) on the slider of fourth lead screw slip table (66), be equipped with three-jaw chuck (68) on the output of rotating electrical machines (67), the side of slip track (63) is equipped with extrusion slide rail (69), the upper end of extrusion slide rail (69) is equipped with extrusion slider (610) and extrudees slider (610) fixed connection's extrusion cylinder (611), the upper end of the extrusion sliding block (610) is provided with an extrusion groove (612).

5. The automatic production process of the fishhook binding device according to claim 2, which is characterized in that: the rotating mechanism (7) comprises a rotating slide rail (71), a rotating slide block (72) in sliding fit with the rotating slide rail (71) is arranged on the rotating slide rail (71), a rotating cylinder (73) fixedly connected with the rotating slide block (72) is arranged on the rotating slide rail (71), a rotating motor (74) is arranged at the upper end of the rotating slide block (72), a rotating prism (75) matched with a rotating groove (48) is arranged at the output end of the rotating motor (74), and a push rod (76) matched with a fixing rod (410) is arranged at the front end of the rotating slide block (72).

6. The automatic production process of a fishhook binding device according to claim 1, characterized in that: the second pressing plate mounting mechanism (8) comprises a pressing plate vibration feeding disc (81) and an automatic screw machine (82), a pressing plate conveying track (83) is arranged on the pressing plate vibration feeding disc (81), a pushing shaft (84) and a pushing motor (85) are arranged at the tail end of the pressing plate conveying track (83), the output end of the pushing motor (85) is fixedly connected with the pushing shaft (84), two pushing pieces (86) are arranged on the pushing shaft (84), a clamping notch (87) is arranged at the tail end of the pressing plate conveying track (83), a pressing plate moving frame (88) is arranged at the side of the pressing plate conveying track (83), two guide rods (89) and a pressing plate moving block sleeved on the two guide rods (89) are arranged on the pressing plate moving frame (88), a pressing plate conveying cylinder (811) with an output end fixedly connected with the pressing plate moving block is arranged on the pressing plate moving frame (88), the automatic screw machine is characterized in that a pressing plate mounting cylinder (812) is arranged on the pressing plate moving block, a pressing plate air clamp (813) fixedly connected with the pressing plate mounting cylinder is arranged at the output end of the pressing plate mounting cylinder (812), and the automatic screw machine (82) is arranged beside the pressing plate moving frame (88).

7. The automatic production process of a fishhook binding device according to claim 1, characterized in that: the steel wire ring mounting mechanism (9) comprises a steel wire ring frame (91), two limiting rods (92) are arranged at the upper end of the steel wire ring frame (91), a rotating rod (93) used for connecting the two limiting rods (92) is arranged at one end of the two limiting rods (92), the rotating rod (93) is rotatably connected with the steel wire ring frame (91), the other ends of the two limiting rods (92) are connected through an arc-shaped rod (94), a pressing block (95) is sleeved on the two limiting rods (92), the pressing block (95) is in sliding fit with the two limiting rods (92), a groove body in sliding fit with the upper end of the steel wire ring frame (91) is arranged at the lower end of the pressing block (95), a baffle (96) is arranged at the tail end of the steel wire ring frame (91), a bearing plate (97) is arranged in the baffle (96), one end of the bearing plate (97) is rotatably connected with the baffle (96), a bearing spring (98) is arranged between the bearing plate (97) and, be equipped with down air cylinder (99) on the upper end of steel wire winding frame (91), be equipped with gag lever post (910) on the output of down air cylinder (99), gag lever post (910) are located between the end of baffle (96) and steel wire winding frame (91), the both sides of steel wire winding frame (91) all are equipped with steel wire winding installation component (911), every steel wire winding installation component (911) all include vertical first cylinder (9111) that set up downwards, be equipped with second cylinder (9112) that the level set up on the output of first cylinder (9111), be equipped with steel wire winding air clamp (9113) on the output of second cylinder (9112).

8. The automatic production process of a fishhook binding device according to claim 1, characterized in that: first transport mechanism (1) is including transportation motor (1001) and transportation dish (1002), transportation motor (1001) is vertical upwards to be set up, the lower extreme of transportation dish (1002) and the output fixed connection of transportation motor (1001), be equipped with transport groove (1003) that a plurality of is the circumference part on transportation dish (1002), every all be equipped with on the lateral wall of transport groove (1003) block groove (1004) and with transport fixture (1005) of block groove (1004) block, every be equipped with tool draw-in groove (1006) on transport fixture (1005).

9. The automatic production process of a fishhook binding device according to claim 1, characterized in that: middle part equipment mechanism (11) are including fifth lead screw slip table (111), be equipped with sixth lead screw slip table (112) on the slider of fifth lead screw slip table (111), be equipped with fixed block (113) on sixth lead screw slip table (112), the upper end of fixed block (113) is equipped with equipment motor (114), the lower part of fixed block (113) is equipped with transmission shaft (115), the one end of transmission shaft (115) is equipped with rather than fixed connection's equipment gas clamp (116), all be equipped with drive wheel (117) on the other end of transmission shaft (115) and the output of equipment motor (114), two connect through belt transmission between drive wheel (117).

10. The automatic production process of a fishhook binding device according to claim 1, characterized in that: the crank mounting mechanism (3) comprises a crank conveying belt (31), a plurality of crank conveying blocks (32) are arranged on the crank conveying belt (31), each crank conveying block (32) is provided with a crank slot which is in plug-in connection with a crank (103), a steering motor (33) is arranged between the crank conveying belt (31) and the first conveying mechanism (1), a steering disc (34) is arranged at the output end of the steering motor (33), a seventh lead screw sliding table (35) is arranged on the steering disc (34), a tightening motor (36) is arranged on a sliding block of the seventh lead screw sliding table (35), a crank air clamp (37) is arranged at the output end of the tightening motor (36), a first telescopic cylinder (38) is arranged at the side of the first conveying mechanism (1), and a second telescopic cylinder (39) is arranged at the output end of the first telescopic cylinder (38), and a positioning air clamp (310) is arranged on the output end of the second telescopic cylinder (39).