CN210160329U - Double-anchor hook point shovel barb blood pressure groove and two-end hook type automatic forming machine - Google Patents

Abstract

The utility model discloses a two anchor hooks point shovel barb pressure blood groove and both ends hooked automatic molding machine, which comprises a frame, three-phase asynchronous machine is installed to middle one side of frame, it is rotatory that three-phase asynchronous machine passes through the transmission drive pivot of belt pulley and sprocket, the one end of frame is provided with automatic unloading mechanism, the downside of automatic unloading mechanism is provided with step-by-step feeding mechanism, step-by-step feeding mechanism's both sides are provided with first hook point shovel barb respectively and press blood groove mechanism and second hook point shovel barb pressure blood groove mechanism, first hook point shovel barb presses blood groove mechanism and second hook point shovel barb to press the same and symmetry setting in step-by-step feeding mechanism's both sides, the rear side that second hook point shovel barb pressed blood groove mechanism is provided with first hook forming mechanism, the rear side that first hook forming mechanism was provided with second hook forming mechanism. Realize two anchor hooks hook point shovel barb blood pressure groove and both ends hook-type automatic molding, degree of automation is high, uses manpower sparingly, and work efficiency is high.

Description

Double-anchor hook point shovel barb blood pressure groove and two-end hook type automatic forming machine

Technical Field

The utility model belongs to the technical field of two anchor hook automatic molding machines, concretely relates to two anchor hook point shovel barb blood pressure groove and both ends hook-type automatic molding machine.

Background

Since the innovation, people live more and more abundantly, people ask for quality of life from the solution of temperature fullness, and quality of life is improved. In the busy work, leisure and entertainment become a new trend for people to enjoy life. Among them, fishing is suitable for all ages and people, has good health-preserving property, and can exercise the body, which is one of the favorite of people. The basic mode of fishing is a fishing rod, a fishing line and a fishing hook, wherein one end of the fishing line is fixedly connected with the fishing rod, the other end of the fishing line is fixedly connected with the fishing hook, and then the fishing hook is sleeved with bait so that a fish can be hooked.

The barb shaping in present two anchor hook both ends is by artifical hand steel wire, and the foot is stepped on the footboard and is driven slider shovel barb, at shovel barb in-process, the prong, barb yielding and be difficult for perceiving, and is time-consuming and labor-consuming, the shaping in two anchor hook both ends, also the hand steel wire of manual work, the manual carousel shaping that rotates, hook-shaped and barb relative position uniformity is not good in the production process, and two anchor hook both ends prong are pressed the blood groove and are not had professional equipment, and the production degree of difficulty is big, and intensity of labour is big, work efficiency. Therefore, the double-anchor hook point shovel barb blood pressing groove and the automatic forming machine with two hook-shaped ends are provided to solve the problems in the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a blood groove and both ends hook-shaped automatic molding machine are pressed to two anchor hook point shovel barb to it leans on artifical hand steel wire to propose present two anchor hook both ends barb shaping among the above-mentioned background art to solve, the foot is stepped on the footboard and is driven slider shovel barb, at the shovel in-process of falling the thorn, the hook point, the barb is yielding and difficult to perceive, it takes a lot of work and time, two anchor hook both ends shaping, also artifical hand steel wire, manual rotation carousel shaping, hook-shaped and barb relative position uniformity are not good in the production process, two anchor hook both ends hook point presses blood groove to have professional equipment, the production degree of difficulty is big, high labor strength, work efficiency's problem.

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

a double-anchor hook point shovel barb blood pressure groove and two-end hook automatic forming machine comprises a frame, wherein a three-phase asynchronous motor is installed on one side in the middle of the frame, an output shaft end key of the three-phase asynchronous motor is connected with a first belt pulley, the first belt pulley is connected with a second belt pulley through a conveying belt in a transmission manner, the second belt pulley is connected on a first rotating shaft in a key manner, the first rotating shaft is connected with the frame in a rotating manner, a third belt pulley is connected on the first rotating shaft in a key manner, the third belt pulley is connected with a fourth belt pulley through a conveying belt in a transmission manner, the fourth belt pulley is connected on a second rotating shaft in a key manner, the end key of the second rotating shaft far away from the fourth belt pulley is connected with a first chain wheel, the first chain wheel is connected with a second chain wheel through a chain in a transmission manner, the second chain wheel is connected at, the third rotating shaft is rotatably connected with the rack, one side of the third rotating shaft, which is close to the third rotating shaft, is in key connection with a first bevel gear, one side of the first bevel gear is in meshing transmission connection with a second bevel gear, the second bevel gear is in key connection with a fourth rotating shaft, the fourth rotating shaft is rotatably connected with the rack, one side of the fourth rotating shaft, which is far away from the second bevel gear, is in key connection with a third bevel gear, one side of the third bevel gear is in meshing transmission connection with a fourth bevel gear, the fourth bevel gear is in key connection with a fifth rotating shaft, and the fifth rotating shaft is rotatably connected with the rack;

the one end of frame is provided with automatic unloading mechanism, the downside of automatic unloading mechanism is provided with step-by-step feeding mechanism, step-by-step feeding mechanism's both sides are provided with first hook point shovel barb respectively and press blood groove mechanism and second hook point shovel barb to press blood groove mechanism, first hook point shovel barb presses blood groove mechanism and second hook point shovel barb to press the same and symmetry setting in step-by-step feeding mechanism's both sides, the rear side that the barb pressed blood groove mechanism is provided with first hook forming mechanism to the second hook point shovel, the rear side of first hook forming mechanism is provided with second hook forming mechanism.

Preferably, automatic unloading mechanism includes first cam, first cam key connection is in the third pivot, the downside drive of first cam has first connecting rod, the other end of first connecting rod is fixed with first baffle, one side of first cam is provided with the second cam, second cam key connection is in the third pivot, the upside drive of second cam has the second connecting rod, the other end of second connecting rod is fixed with the second baffle, one side that first cam was kept away from to the second cam is provided with the third cam, third cam key connection is in the third pivot, the downside drive of third cam has the third connecting rod, the opposite side of third cam is fixed with the third baffle.

Preferably, the step feeding mechanism comprises a fourth cam, a fifth cam and a sixth cam, the fourth cam is connected with the third rotating shaft, a fourth connecting rod is driven by one side of the fourth cam, the other end of the fourth connecting rod is contacted with a driving block, the driving block is fixed on one side of the first stepping block, the fifth cam is connected on the fifth rotating shaft through a key, a fifth connecting rod is driven by one side of the fifth cam, a first sliding block is driven by the upper end of the other end of the fifth connecting rod, the first slide block is fixedly connected with the first stepping block, the sixth cam is connected with the third rotating shaft through a key, a sixth connecting rod is driven by one side of the sixth cam, a second sliding block is driven by the upper end of the other side of the sixth connecting rod, and a second stepping block is fixed on the second sliding block and fixedly connected with the first stepping block through a connecting frame.

Preferably, second hook point shovel barb presses blood groove mechanism includes the seventh cam, seventh cam keyed connection is in the fifth pivot, the upside drive of seventh cam has the seventh connecting rod, the other end drive of seventh connecting rod has the third slider, the third slider slides in first slide rail, first slide rail is fixed in the frame, the upper end one side drive of seventh cam has the eighth connecting rod, the opposite side drive of eighth connecting rod has the fourth slider, the fourth slider slides in the second slide rail, the second slide rail is fixed in the frame, the one end downside that the eighth connecting rod was kept away from to the fourth slider is installed the tool bit, be provided with the spring between tool bit and the second slide rail, the spring cup joints the outside at the fourth slider.

Preferably, the first hook forming mechanism includes an eighth cam and a ninth cam, the eighth cam is keyed on a third rotating shaft, a fifth slider is driven by the front side of the eighth cam, the fifth slider slides on a third slide rail, the third slide rail is fixed on the frame, a first rack is fixed at the other end of the third slide rail, a first gear is engaged and transmission-connected to the lower side of the first rack, the first gear is rotationally connected with the frame, a first swing link is eccentrically fixed to one side of the first gear, the ninth cam is keyed on the fifth rotating shaft, a ninth connecting rod is driven by the lower side of the ninth cam, a material pressing slider is driven by the other side of the ninth connecting rod, the material pressing slider slides in the fourth slide rail, the fourth slide rail is fixed on the frame, a forming block is arranged at the upper end of the material pressing slider, and the forming block is fixed on the first mounting block, the first mounting block is fixed on the frame.

Preferably, the second hook forming mechanism comprises a tenth cam, an eleventh cam and a twelfth cam, the tenth cam is connected to a third rotating shaft in a keyed mode, a tenth connecting rod is driven to one side of the tenth cam, a sixth sliding block is fixed to the other end of the tenth connecting rod, a second rack is fixed to one end, away from the tenth cam, of the sixth sliding block, the upper side of the second rack is connected with a second gear in a meshed transmission mode, the second gear is connected to the sixth rotating shaft in a keyed mode, the sixth rotating shaft is connected with a second installation block in a rotating mode, the second installation block is installed on the rack, and a reverse rotation groove is formed in the middle of the end portion, away from the second gear, of the sixth rotating shaft.

Preferably, the eleventh cam is connected to the fifth rotating shaft through a key, an eleventh connecting rod is driven by one side of the eleventh cam, a seventh sliding block is driven by the other side of the eleventh connecting rod, and the seventh sliding block slides up and down relative to the frame.

Preferably, the twelfth cam is in keyed connection with the third rotating shaft, a twelfth connecting rod is driven by one side of the twelfth cam, an eighth slider is driven by the other side of the twelfth connecting rod, a third rack is fixed at one end, far away from the twelfth connecting rod, of the eighth slider, a third gear is meshed with the lower side of the third rack, the third gear is in keyed connection with the seventh rotating shaft, the seventh rotating shaft is rotatably connected with a third mounting block, the third mounting block is fixed on the rack, and a second swing rod is eccentrically fixed at one end, far away from the third gear, of the seventh rotating shaft.

The utility model discloses a technological effect and advantage: the utility model provides a pair of two anchor hooks hook point shovel barb blood pressure groove and both ends hook-type automatic molding machine compares with prior art, has following advantage:

1. the utility model discloses a rotation of third pivot drives the second cam rotatory, and then the second cam drives the second connecting rod rotatory, and then the second connecting rod drives the second baffle downstream, and then the second baffle blocks the steel wire in the workbin and realizes singly putting the point, avoid its whole outflow from the workbin bottom, the rotation of third pivot drives the first cam rotatory simultaneously, and then the first cam drives the first connecting rod rotatory, and then the first connecting rod drives the first baffle motion and realizes that the steel wire singly divides the point, the third pivot drives the third cam rotatory simultaneously, and then the third cam drives the third connecting rod rotatory, and then the third connecting rod drives the third baffle and realizes the point of keeping off to the steel wire, single automatic unloading of steel wire has been realized, high work efficiency, practice thrift the cost of labor;

2. the utility model drives the fourth cam to rotate through the third rotating shaft, and then the fourth cam drives the fourth connecting rod to rotate, and then the fourth connecting rod pushes the driving block to move left and right, and then the driving block drives the first step block to move left and right, the right side of the first step block is fixed with the second step block through the connecting frame, and then the first step block and the second step block realize action movement, and simultaneously the fifth rotating shaft drives the fifth cam to rotate, and then the fifth cam drives the fifth connecting rod to rotate, and then the fifth connecting rod drives the first slider to move up and down, the first slider and the first step block are fixed together, and simultaneously the third rotating shaft drives the sixth cam to rotate, and then the sixth cam drives the sixth connecting rod to rotate, and then the sixth connecting rod drives the second slider to move up and down, the second slider is fixed on the second step block, and then the first step block and the second step block realize up and down sliding, and then the first step block and the second step block realize synchronous up and down left and right movement, the steel wire is conveyed, the working efficiency is high, and the conveying is accurate;

3. the utility model discloses a fifth pivot drives the seventh cam rotatory, and then the seventh cam drives the seventh connecting rod rotatory, and then the seventh connecting rod drives the third slider and slides downwards in first slide rail, and then the third slider compresses tightly the steel wire and realizes pressing the blood groove function, and simultaneously the seventh cam drives the eighth connecting rod rotatory, and then the eighth connecting rod drives the fourth slider and slides around in the second slide rail, and the fourth slider drives the tool bit and slides downwards in the second slide rail, and then the tool bit realizes the barb processing to the fishhook, realize pressing blood groove and barb of automatic processing fishhook, work efficiency is high, and the processingquality is good;

4. the utility model discloses a third pivot drives the eighth cam rotatory, and then the eighth cam drives the fifth slider to move back and forth in the third slide rail, and then the fifth slider drives first rack back and forth movement, and then the first rack drive rotates 165 rather than the first gear of meshing, and then the first pendulum rod on the first gear promotes the one end of steel wire and rotates 165 to realize the processing of fishhook configuration into the shaping piece, the fifth pivot drives the ninth cam rotatory, and then the ninth cam drives the ninth connecting rod to rotate, and then the ninth connecting rod drives the pressure slider and slides from top to bottom in the fourth slide rail, the pressure slider moves upward and realizes the extrusion to the fishhook tip, realize the hooked automatic processing to fishhook one side, high working efficiency, high processingquality;

5. the utility model drives the tenth cam to rotate through the third rotating shaft, then the tenth cam drives the tenth connecting rod to rotate, then the tenth connecting rod drives the sixth sliding block to move back and forth, then the sixth sliding block drives the second rack to move back and forth, then the second rack drives the second gear to rotate 165 degrees, then the second gear drives the sixth rotating shaft to rotate, then the sixth rotating shaft drives the reverse groove to rotate 165 degrees, the end part of the fishhook is clamped in the reverse groove, then the hook shape of the fishhook faces upwards under the drive of the reverse groove, the fifth rotating shaft drives the eleventh cam to rotate, then the eleventh cam drives the eleventh connecting rod to rotate, then the eleventh connecting rod drives the seventh sliding block to move up and down, further the pressing of the hook tip of the fishhook is realized, the third rotating shaft drives the twelfth cam to rotate, then the twelfth connecting rod to rotate, and then the twelfth connecting rod to slide back and forth, and then the eighth slider drives the third rack to move back and forth, and then the third rack drives the third gear engaged with it to rotate 165 degrees, and then the third gear drives the seventh rotating shaft to rotate, and then the seventh rotating shaft drives the second swing rod to rotate 165 degrees, and then the second swing rod realizes the automatic processing of the hook shape of the other end of the fishhook, the work efficiency is high, the processing quality is good, and the semi-finished fishhook product discharge device after the hook shape processing.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a side view of the present invention;

FIG. 3 is a power transmission structure diagram of the third and fifth rotating shafts of the present invention;

FIG. 4 is a structural diagram of the automatic blanking mechanism of the present invention;

FIG. 5 is a structural diagram of the step feeding mechanism of the present invention;

fig. 6 is a diagram of the first hook point shovel barb blood pressure groove mechanism and the second hook point shovel barb blood pressure groove mechanism of the present invention;

FIG. 7 is a structural view of a first hook forming mechanism of the present invention;

FIG. 8 is an enlarged view of the point A of the present invention;

fig. 9 is a second hook forming mechanism diagram of the present invention.

Reference numerals: 1. a frame; 2. a three-phase asynchronous motor; 3. a first pulley; 4. a second pulley; 5. a first rotating shaft; 6. a third belt pulley; 7. a fourth belt pulley; 8. a second rotating shaft; 9. a first sprocket; 10. a second sprocket; 11. a third rotating shaft; 12. a first bevel gear; 13. a second bevel gear; 14. a fourth rotating shaft; 15. a third bevel gear; 16. a fourth bevel gear; 17. a fifth rotating shaft; 18. an automatic blanking mechanism; 181. a first cam; 182. a first link; 183. a first baffle plate; 184. a second cam; 185. a second link; 186. a second baffle; 187. a third cam; 188. a third link; 189. a third baffle plate; 19. a step feeding mechanism; 1901. a fourth cam; 1902. a fourth link; 1903. a drive block; 1904. a first step block; 1905. a fifth cam; 1906. a fifth link; 1907. a first slider; 1908. a sixth cam; 1909. a sixth link; 1910. a second slider; 1911. a second stepping block; 1912. a connecting frame; 20. a first hook point shovel barb blood pressure groove mechanism; 21. a second hook point shovel barb blood pressure groove mechanism; 2101. a seventh cam; 2102. a seventh connecting rod; 2103. a third slider; 2104. an eighth link; 2105. a fourth slider; 2106. a second slide rail; 2107. a cutter head; 2108. a spring; 2109. a first slide rail; 22. a first hook forming mechanism; 2201. an eighth cam; 2202. a fifth slider; 2203. a third slide rail; 2204. a first rack; 2205. a first gear; 2206. a first swing link; 2207. a first mounting block; 2208. forming a block; 2209. a ninth cam; 2210. a ninth link; 2211. pressing a sliding block; 2212. a fourth slide rail; 23. a second hook forming mechanism; 2301. a tenth cam; 2302. a tenth link; 2303. a sixth slider; 2304. a second rack; 2305. a second gear; 2306. a sixth rotating shaft; 2307. a second mounting block; 2308. a reversing tank; 2309. an eleventh cam; 2310. an eleventh link; 2311. a seventh slider; 2312. a twelfth cam; 2313. a twelfth link; 2314. an eighth slider; 2315. a third rack; 2316. a third gear; 2317. a seventh rotating shaft; 2318. a third mounting block; 2319. and a second swing link.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The specific embodiments described herein are merely illustrative of the invention and are not intended to be limiting of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a double-anchor hook point shovel barb blood pressure groove and two-end hook shape automatic forming machine as shown in figures 1-9, which comprises a frame 1, wherein a three-phase asynchronous motor 2 is arranged at one side of the middle of the frame 1, a frequency converter is connected on the three-phase asynchronous motor 2 and is used for adjusting the rotating speed of the three-phase asynchronous motor 2, the end part of an output shaft of the three-phase asynchronous motor 2 is in key connection with a first belt pulley 3, the first belt pulley 3 is connected with a second belt pulley 4 through a conveyor belt transmission, the second belt pulley 4 is in key connection with a first rotating shaft 5, the first rotating shaft 5 is in rotational connection with the frame 1, the first rotating shaft 5 is in key connection with a third belt pulley 6, the third belt pulley 6 is connected with a fourth belt pulley 7 through a conveyor belt transmission, the fourth belt pulley 7 is in key connection with a second rotating shaft 8, the fourth belt pulley 7, the end part of the second rotating shaft 8 far away from the fourth belt pulley 7 is connected with a first chain wheel 9 through a key, the first chain wheel 9 is connected with a second chain wheel 10 through a chain transmission, the second chain wheel 10 is connected with one end of a third rotating shaft 11 in a key mode, the third rotating shaft 11 is connected with the rack 1 in a rotating mode, a first bevel gear 12 is connected with one side of the third rotating shaft 11 close to the third rotating shaft 11 through a key, one side of the first bevel gear 12 is in meshing transmission connection with a second bevel gear 13, the second bevel gear 13 is in key connection with a fourth rotating shaft 14, the fourth rotating shaft 14 is rotationally connected with the frame 1, one side of the fourth rotating shaft 14 far away from the second bevel gear 13 is keyed with a third bevel gear 15, one side of the third bevel gear 15 is in meshing transmission connection with a fourth bevel gear 16, the fourth bevel gear 16 is in key connection with a fifth rotating shaft 17, and the fifth rotating shaft 17 is in rotating connection with the rack 1;

the one end of frame 1 is provided with automatic unloading mechanism 18, the downside of automatic unloading mechanism 18 is provided with step-by-step feeding mechanism 19, step-by-step feeding mechanism 19's both sides are provided with first hook point shovel barb respectively and press blood groove mechanism 20 and second hook point shovel barb to press blood groove mechanism 21, first hook point shovel barb presses blood groove mechanism 20 and second hook point shovel barb to press the same and symmetry setting in step-by-step feeding mechanism 19's both sides of structure, the rear side that second hook point shovel barb pressed blood groove mechanism 21 is provided with first hook forming mechanism 22, the rear side of first hook forming mechanism 22 is provided with second hook forming mechanism 23.

Preferably, the automatic blanking mechanism 18 includes a first cam 181, the first cam 181 is connected to the third shaft 11 in a key manner, a first link 182 is driven on a lower side of the first cam 181, a first baffle 183 is fixed to the other end of the first link 182, a second cam 184 is arranged on one side of the first cam 181, the second cam 184 is connected to the third shaft 11 in a key manner, a second link 185 is driven on an upper side of the second cam 184, a second baffle 186 is fixed to the other end of the second link 185, a third cam 187 is arranged on one side of the second cam 184 away from the first cam 181, the third cam 187 is connected to the third shaft 11 in a key manner, a third link 188 is driven on a lower side of the third cam 187, and a third baffle 189 is fixed to the other side of the third cam 187.

Through adopting above-mentioned technical scheme, through the motion of first baffle 183 of first cam 181 drive, second cam 184 drive second baffle 186 motion to and third cam 187 drive second baffle 186 motion, under the cooperation of first baffle 183, second baffle 186 and second baffle 186, realized single automatic unloading of steel wire, work efficiency is high, practices thrift the cost of labor.

Preferably, the step feeding mechanism 19 includes a fourth cam 1901, a fifth cam 1905 and a sixth cam 1908, the fourth cam 1901 is keyed to the third rotating shaft 11, one side of the fourth cam 1901 drives a fourth link 1902, the other end of the fourth link 1902 contacts a driving block 1903, the driving block 1903 is fixed to one side of a first step block 1904, the fifth cam 1905 is keyed to a fifth rotating shaft 17, one side of the fifth cam 1905 drives a fifth link 1906, the other end of the fifth link 1906 drives a first slider 1907, the first slider 1907 is fixedly connected to the first step block 1904, the sixth cam 1908 is keyed to the third rotating shaft 11, one side of the sixth cam 1908 drives a sixth link 1909, the other end of the sixth link 1909 drives a second slider 1910, the second step block 1911 is fixed to the second step block 1910, the second stepping block 1911 is fixedly connected to the first stepping block 1904 by a connection bracket 1912.

By adopting the above technical scheme, the driving block 1903 is driven to move left and right by the fourth cam 1901, the first slider 1907 is driven to move up and down by the fifth cam 1905, the second slider 1910 is driven to move up and down by the sixth cam 1908, and then the first stepping block 1904 and the second stepping block 1911 realize synchronous up-down left and right movement, so that the steel wire is conveyed, the working efficiency is high, and the conveying is accurate.

Preferably, the second hook point shovel barb blood pressure groove mechanism 21 includes a seventh cam 2101, the seventh cam 2101 is keyed on the fifth rotating shaft 17, a seventh link 2102 is driven on the upper side of the seventh cam 2101, a third slider 2103 is driven by the other end of the seventh link 2102, the third slider 2103 slides in a first slide rail 2109, the first slide rail 2109 is fixed on the rack 1, an eighth link 2104 is driven on one side of the upper end of the seventh cam 2101, a fourth slider 2105 is driven on the other side of the eighth link 2104, the fourth slider 2105 slides in a second slide rail 2106, the second slide rail 2106 is fixed on the rack 2101, a cutter head 2107 is mounted on the lower side of one end of the fourth slider 5 far from the eighth link 2104, a sleeve spring 2108 is arranged between the cutter head 2107 and the second slide rail 2106, and the spring 2108 is arranged on the outer side of the fourth slider 2105.

Through adopting above-mentioned technical scheme, through seventh cam 2101 drive third slider 2103 up-and-down motion, realize that third slider 2103 compresses tightly the steel wire, realize the function that the fishhook pressed the blood groove to process, seventh cam 2101 drive fourth slider 2105 drives tool bit 2107 and slides downwards in second slide rail 2106, and then tool bit 2107 realizes the barb processing to the fishhook, realizes pressing blood groove and the barb of automatic processing fishhook, and work efficiency is high, and processingquality is good.

Preferably, the first hook forming mechanism 22 includes an eighth cam 2201 and a ninth cam 2209, the eighth cam 2201 is keyed on the third rotating shaft 11, a fifth slider 2202 is driven by a front side of the eighth cam 2201, the fifth slider 2202 slides on a third slide rail 2203, the third slide rail 2203 is fixed on the frame 1, a first rack 2204 is fixed at the other end of the third slide rail 2203, a first gear 2205 is engaged and transmission connected to a lower side of the first rack 2204, the first gear 2205 is rotatably connected to the frame 1, a first swing rod 2206 is eccentrically fixed to one side of the first gear 2205, the ninth cam 2209 is keyed on the fifth rotating shaft 17, a ninth link 2210 is driven by a lower side of the ninth cam 2209, a material pressing slider 2211 is driven by the other side of the ninth link, the material pressing slider 2211 slides in a fourth slide rail 2210, the fourth material pressing slider 2212 is fixed on the frame 1, the upper end of the material pressing slider 2211 is provided with a forming block 2208, the forming block 2208 is fixed on a first mounting block 2207, and the first mounting block 2207 is fixed on the machine frame 1.

By adopting the technical scheme, the eighth cam 2201 drives the first gear 2205 to rotate 165 degrees, so that the first swing rod 2206 on the first gear 2205 pushes one end of a steel wire to be wound into the forming block 2208 to rotate 165 degrees, the fishhook configuration is processed, the ninth cam 2209 drives the pressing slider 2211 to slide up and down in the fourth sliding rail 2212, the pressing slider 2211 moves upwards to extrude the end part of the fishhook, the hook-shaped automatic processing on one side of the fishhook is realized, the working efficiency is high, and the processing quality is good.

Preferably, the second hook forming mechanism 23 includes a tenth cam 2301, an eleventh cam 2309 and a twelfth cam 2312, the tenth cam 2301 is keyed to the third rotating shaft 11, one side of the tenth cam 2301 drives a tenth link 2302, a sixth slider 2303 is fixed to the other end of the tenth link 2302, a second rack 2304 is fixed to one end of the sixth slider 2303 far from the tenth cam 2301, a second gear 2305 is engaged and transmission-connected to the upper side of the second rack 2304, the second gear 2305 is keyed to a sixth rotating shaft 2306, a second mounting block 2307 is rotatably connected to the sixth rotating shaft 2306, the second mounting block 2307 is mounted on the frame 2301, and a reverse rotation groove 2308 is arranged in the middle of one end of the sixth rotating shaft 2306 far from the second gear 2305.

By adopting the technical scheme, the tenth cam 2301 drives the sixth rotating shaft 2306 to drive the reverse rotating groove 2308 to rotate 165 degrees, the end part of the fishhook is clamped in the reverse rotating groove 2308, and then the hook shape of the fishhook is driven by the reverse rotating groove 2308 to face upwards.

Preferably, the eleventh cam 2309 is keyed to the fifth shaft 17, one side of the eleventh cam 2309 drives an eleventh link 2310, the other side of the eleventh link 2310 drives a seventh slider 2311, and the seventh slider 2311 slides up and down relative to the frame 1.

By adopting the technical scheme, the seventh slider 2311 is driven to move up and down by the eleventh cam 2309, so that the hook tip of the fishhook is pressed.

Preferably, the twelfth cam 2312 is keyed to the third rotating shaft 11, a twelfth link 2313 is driven by one side of the twelfth cam 2312, an eighth slider 2314 is driven by the other side of the twelfth link 2313, a third rack 2315 is fixed to one end of the eighth slider 2314 away from the twelfth link 2313, a third gear 2316 is meshed with the lower side of the third rack 2315, the third gear 2316 is keyed to a seventh rotating shaft 2317, a third mounting block 2318 is rotatably connected to the seventh rotating shaft 2317, the third mounting block 2318 is fixed to the frame 1, and a second swing rod 2319 is eccentrically fixed to one end of the seventh rotating shaft 2317 away from the third gear 2316.

By adopting the technical scheme, the seventh rotating shaft 2317 is driven to rotate by the twelfth cam 2312, and then the seventh rotating shaft 2317 drives the second swinging rod 2319 to rotate 165 degrees, so that the second swinging rod 2319 realizes automatic hook processing on the other end of the fishhook, and the fishhook processing machine is high in working efficiency and good in processing quality.

The working principle is as follows: the three-phase asynchronous motor 2 is started, the three-phase asynchronous motor 2 drives the first belt pulley 3 to rotate, the first belt pulley 3 drives the second belt pulley 4 to rotate through the conveying belt, the second belt pulley 4 drives the first rotating shaft 5 to rotate, the rotation of the first rotating shaft 5 drives the third belt pulley 6 to rotate, the third belt pulley 6 drives the fourth belt pulley 7 to rotate through the conveying belt, the fourth belt pulley 7 drives the second rotating shaft 8 to rotate, the second rotating shaft 8 drives the first chain wheel 9 to rotate, the first chain wheel 9 drives the second chain wheel 10 to rotate through the chain, the second chain wheel 10 drives the third rotating shaft 11 to rotate, the third rotating shaft 11 drives the first bevel gear 12 to rotate, the rotation of the first bevel gear 12 drives the second bevel gear 13 meshed with the first bevel gear to rotate, the second bevel gear 13 drives the fourth rotating shaft 14 to rotate, the rotation of the fourth rotating shaft 14 drives the third bevel gear 15 to rotate, the rotation of the third bevel gear 15 drives the fourth bevel gear 16 engaged with the third bevel gear to rotate, and the rotation of the third bevel gear 15 drives the fifth rotating shaft 17 to rotate;

the rotation of the third rotating shaft 11 drives the second cam 184 to rotate, and then the second cam 184 drives the second connecting rod 185 to rotate, and then the second connecting rod 185 drives the second baffle 186 to move downwards, and then the second baffle 186 blocks the steel wire in the material box to realize single tip placement, so as to prevent the steel wire from flowing out of the bottom end of the material box completely, meanwhile, the rotation of the third rotating shaft 11 drives the first cam 181 to rotate, and then the first cam 181 drives the first connecting rod 182 to rotate, and then the first connecting rod 182 drives the first baffle 183 to move to realize single tip placement of the steel wire, and simultaneously, the third rotating shaft 11 drives the third cam 187 to rotate, and then the third cam 187 drives the third connecting rod 188 to rotate, and then the third connecting rod 188 drives the third baffle 189 to realize tip placement of the steel wire, so as to realize single automatic blanking of the steel;

meanwhile, the third shaft 11 drives the fourth cam 1901 to rotate, and then the fourth cam 1901 drives the fourth link 1902 to rotate, and then the fourth link 1902 pushes the driving block 1903 to move left and right, and then the driving block 1903 drives the first stepping block 1904 to move left and right, and the right side of the first stepping block 1904 is fixed with the second stepping block 1911 through the connecting frame 1912, and then the first stepping block 1904 and the second stepping block 1911 realize action movement, and simultaneously the fifth shaft 17 drives the fifth cam 1905 to rotate, and then the fifth cam 1905 drives the fifth link 1906 to rotate, and then the fifth link 1906 drives the first slider 1907 to move up and down, and the first slider 1907 and the first stepping block 1904 are fixed together, and simultaneously the third shaft 11 drives the sixth cam 1908 to rotate, and then the sixth cam 1908 drives the sixth link 1909 to rotate, and then the sixth link 1909 drives the second slider 1910 to move up and down, and the second slider 1910 is fixed on the second stepping block 1911, the first stepping block 1904 and the second stepping block 1911 slide up and down, and the first stepping block 1904 and the second stepping block 1911 move up, down, left and right synchronously, so that the steel wire is conveyed;

meanwhile, the fifth rotating shaft 17 drives the seventh cam 2101 to rotate, so that the seventh cam 2101 drives the seventh connecting rod 2102 to rotate, so that the seventh connecting rod 2102 drives the third sliding block 2103 to slide downwards in the first sliding rail 2109, so that the third sliding block 2103 compresses the steel wire to realize the blood pressure groove function, meanwhile, the seventh cam 2101 drives the eighth connecting rod 2104 to rotate, so that the eighth connecting rod 2104 drives the fourth sliding block 2105 to slide forwards and backwards in the second sliding rail 2106, the fourth sliding block 2105 drives the cutter head 2107 to slide downwards in the second sliding rail 2106, so that the cutter head 2107 realizes the barb machining of the fishhook, and the blood pressure groove and the barb of the fishhook are automatically machined;

meanwhile, the third rotating shaft 11 drives the eighth cam 2201 to rotate, so that the eighth cam 2201 drives the fifth slider 2202 to move back and forth in the third sliding rail 2203, so that the fifth slider 2202 drives the first rack 2204 to move back and forth, so that the first rack 2204 drives the first gear 2205 engaged with the first rack 2204 to rotate 165 degrees, so that the first swing rod 2206 on the first gear 2205 pushes one end of a steel wire to be wound into a forming block 2208 to rotate 165 degrees to realize the processing of the fishhook configuration, the fifth rotating shaft 17 drives the ninth cam 2209 to rotate, so that the ninth cam 2209 drives the ninth connecting rod 2210 to rotate, so that the ninth connecting rod drives the pressing slider 2211 to slide up and down in the fourth sliding rail 2212, and the pressing slider 2211 moves upwards to realize the extrusion on the end of the fishhook, thereby realizing the automatic processing of the hook shape on one side of the fishhook;

meanwhile, the tenth cam 2301 is driven by the third rotating shaft 11 to rotate, the tenth cam 2301 drives the tenth link 2302 to rotate, the tenth link 2302 drives the sixth slider 2303 to move back and forth, the sixth slider 2303 drives the second rack 2304 to move back and forth, the second rack 2304 drives the second gear 2305 to rotate 165 °, the second gear 2305 drives the sixth rotating shaft 2306 to rotate, the sixth rotating shaft 2306 drives the reverse groove 2308 to rotate 165 °, the end portion of the fishhook is clamped in the reverse groove 2308, the hook of the fishhook faces upward under the drive of the reverse groove 2308, the eleventh cam 2309 drives the eleventh link 2310 to rotate, the eleventh link 2310 drives the seventh slider 2311 to move up and down, the fishhook tip is pressed, the twelfth cam 2312 is driven by the third rotating shaft 11, and the twelfth cam 2312 drives the twelfth link 2313 to rotate, the twelfth connecting rod 2313 drives the eighth slider 2314 to slide back and forth, the eighth slider drives the third rack 2315 to move back and forth, the third rack 2315 drives the third gear 2316 meshed with the third rack to rotate 165 degrees, the third gear 2316 drives the seventh rotating shaft 2317 to rotate, the seventh rotating shaft 2317 drives the second swinging rod 2319 to rotate 165 degrees, the second swinging rod 2319 further realizes automatic hook processing on the other end of the fishhook, and after the hook processing, the semi-finished fishhook is discharged out of the device, so that the whole working process is finished.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (8)

1. The utility model provides a two anchor hooks hook point shovel barb blood pressure groove and hook-type automatic molding machine in both ends, includes frame (1), its characterized in that: the automatic belt conveyor is characterized in that a three-phase asynchronous motor (2) is installed on one side in the middle of the rack (1), an output shaft end part of the three-phase asynchronous motor (2) is in keyed joint with a first belt pulley (3), the first belt pulley (3) is connected with a second belt pulley (4) through a conveying belt in a transmission manner, the second belt pulley (4) is in keyed joint with a first rotating shaft (5), the first rotating shaft (5) is in rotating connection with the rack (1), a third belt pulley (6) is in keyed joint with the first rotating shaft (5), the third belt pulley (6) is connected with a fourth belt pulley (7) through a conveying belt in a transmission manner, the fourth belt pulley (7) is in keyed joint with a second rotating shaft (8), the fourth belt pulley (7) is in rotating connection with the rack (1), and one end part of the second rotating shaft (8), which is far away from the fourth belt pulley (7), the first chain wheel (9) is connected with a second chain wheel (10) through chain transmission, the second chain wheel (10) is connected with one end of a third rotating shaft (11) in a key mode, the third rotating shaft (11) is rotatably connected with the rack (1), one side of the third rotating shaft (11) close to the third rotating shaft (11) is connected with a first bevel gear (12) in a key mode, one side of the first bevel gear (12) is connected with a second bevel gear (13) in a meshing transmission mode, the second bevel gear (13) is connected with a fourth rotating shaft (14) in a key mode, the fourth rotating shaft (14) is rotatably connected with the rack (1), one side of the fourth rotating shaft (14) far away from the second bevel gear (13) is connected with a third bevel gear (15) in a key mode, one side of the third bevel gear (15) is connected with a fourth bevel gear (16) in a meshing transmission mode, and the fourth bevel gear (16) is connected, the fifth rotating shaft (17) is rotatably connected with the rack (1);

the one end of frame (1) is provided with automatic unloading mechanism (18), the downside of automatic unloading mechanism (18) is provided with step-by-step feeding mechanism (19), the both sides of step-by-step feeding mechanism (19) are provided with first hook point shovel barb respectively and press blood groove mechanism (20) and second hook point shovel barb to press blood groove mechanism (21), first hook point shovel barb presses blood groove mechanism (20) and second hook point shovel barb to press the both sides that blood groove mechanism (21) structure is the same and symmetry set up at step-by-step feeding mechanism (19), the rear side that the blood groove mechanism (21) was pressed to second hook point shovel barb is provided with first hook forming mechanism (22), the rear side of first hook forming mechanism (22) is provided with second hook forming mechanism (23).

2. The automatic double-anchor hook and point shovel barb blood pressure groove and two-end hook forming machine according to claim 1, characterized in that: the automatic blanking mechanism (18) comprises a first cam (181), the first cam (181) is in keyed connection with a third rotating shaft (11), a first connecting rod (182) is driven by the lower side of the first cam (181), a first baffle (183) is fixed at the other end of the first connecting rod (182), a second cam (184) is arranged on one side of the first cam (181), the second cam (184) is in keyed connection with the third rotating shaft (11), a second connecting rod (185) is driven by the upper side of the second cam (184), a second baffle (186) is fixed at the other end of the second connecting rod (185), a third cam (187) is arranged on one side, far away from the first cam (181), of the second cam (184), the third cam (187) is in keyed connection with the third rotating shaft (11), and a third connecting rod (188) is driven by the lower side of the third cam (187), and a third baffle plate (189) is fixed on the other side of the third cam (187).

3. The automatic double-anchor hook and point shovel barb blood pressure groove and two-end hook forming machine according to claim 1, characterized in that: the step feeding mechanism (19) comprises a fourth cam (1901), a fifth cam (1905) and a sixth cam (1908), the fourth cam (1901) is connected with the third rotating shaft (11) in a key mode, one side of the fourth cam (1901) drives a fourth connecting rod (1902), the other end of the fourth connecting rod (1902) is in contact with a driving block (1903), the driving block (1903) is fixed on one side of the first step block (1904), the fifth cam (1905) is connected with the fifth rotating shaft (17) in a key mode, one side of the fifth cam (1905) drives a fifth connecting rod (1906), the upper end of the other end of the fifth connecting rod (1906) drives a first sliding block (1907), the first sliding block (1907) is fixedly connected with the first step block (1904), the sixth cam (1908) is connected with the third rotating shaft (11) in a key mode, and one side of the sixth cam (1908) drives a sixth connecting rod (1909), a second sliding block (1910) is driven at the upper end of the other side of the sixth connecting rod (1909), a second stepping block (1911) is fixed on the second sliding block (1910), and the second stepping block (1911) is fixedly connected with the first stepping block (1904) through a connecting frame (1912).

4. The automatic double-anchor hook and point shovel barb blood pressure groove and two-end hook forming machine according to claim 1, characterized in that: the second hook point shovel barb blood pressing groove mechanism (21) comprises a seventh cam (2101), the seventh cam (2101) is connected to a fifth rotating shaft (17) in a keyed mode, a seventh connecting rod (2102) is driven on the upper side of the seventh cam (2101), a third sliding block (2104) is driven at the other end of the seventh connecting rod (2102), the third sliding block (2103) slides in a first sliding rail (2109), the first sliding rail (2109) is fixed on the rack (1), an eighth connecting rod (2104) is driven on one side of the upper end of the seventh cam (2101), a fourth sliding block (2105) is driven on the other side of the eighth connecting rod (2104), the fourth sliding block (2105) slides in a second sliding rail (2106), the second sliding rail (2106) is fixed on the rack (1), and a cutter head (2107) is installed on the lower side of one end, far away from the eighth connecting rod (2105), of the fourth sliding block (2105), be provided with spring (2108) between tool bit (2107) and second slide rail (2106), spring (2108) cup joint in the outside of fourth slider (2105).

5. The automatic double-anchor hook and point shovel barb blood pressure groove and two-end hook forming machine according to claim 1, characterized in that: the first hook forming mechanism (22) comprises an eighth cam (2201) and a ninth cam (2209), the eighth cam (2201) is connected to a third rotating shaft (11) in a keyed mode, a fifth slider (2202) is driven to be arranged on the front side of the eighth cam (2201), the fifth slider (2202) slides on a third sliding rail (2203), the third sliding rail (2203) is fixed to the rack (1), a first rack (2204) is fixed to the other end of the third sliding rail (2203), a first gear (2205) is connected to the lower side of the first rack (2204) in a meshing transmission mode, the first gear (2205) is connected with the rack (1) in a rotating mode, a first swing rod (2206) is eccentrically fixed to one side of the first gear (2205), the ninth cam (2209) is connected to a fifth rotating shaft (17) in a keyed mode, a ninth connecting rod (2210) is driven to be arranged on the lower side of the ninth cam (2209), and a pressure slider (2211) of the ninth connecting rod (2211) is driven by the ninth cam, the pressing sliding block (2211) slides in a fourth sliding rail (2212), the fourth sliding rail (2212) is fixed on the rack (1), a forming block (2208) is arranged at the upper end of the pressing sliding block (2211), the forming block (2208) is fixed on a first mounting block (2207), and the first mounting block (2207) is fixed on the rack (1).

6. The automatic double-anchor hook and point shovel barb blood pressure groove and two-end hook forming machine according to claim 1, characterized in that: the second hook molding mechanism (23) includes a tenth cam (2301), an eleventh cam (2309), and a twelfth cam (2312), the tenth cam (2301) is keyed on the third rotating shaft (11), one side of the tenth cam (2301) drives a tenth connecting rod (2302), and a sixth sliding block (2303) is fixed at the other end of the tenth connecting rod (2302), a second rack (2304) is fixed at one end of the sixth sliding block (2303) far away from the tenth cam (2301), the upper side of the second rack (2304) is engaged and connected with a second gear (2305), the second gear (2305) is keyed on a sixth rotating shaft (2306), the sixth rotating shaft (2306) is rotatably connected with a second mounting block (2307), the second mounting block (2307) is mounted on the frame (1), and a reverse groove (2308) is formed in the middle of one end portion, far away from the second gear (2305), of the sixth rotating shaft (2306).

7. The automatic double-anchor hook and point shovel barb blood pressure groove and two-end hook forming machine according to claim 6, characterized in that: the eleventh cam (2309) is in keyed connection with the fifth rotating shaft (17), an eleventh connecting rod (2310) is driven by one side of the eleventh cam (2309), a seventh sliding block (2311) is driven by the other side of the eleventh connecting rod (2310), and the seventh sliding block (2311) slides up and down relative to the rack (1).

8. The automatic double-anchor hook and point shovel barb blood pressure groove and two-end hook forming machine according to claim 6, characterized in that: the twelfth cam (2312) is connected to the third rotating shaft (11) in a key mode, a twelfth connecting rod (2313) is driven to be arranged on one side of the twelfth cam (2312), an eighth sliding block (2314) is driven to be arranged on the other side of the twelfth connecting rod (2313), a third rack (2315) is fixed to one end, away from the twelfth connecting rod (2313), of the eighth sliding block (2314), a third gear (2316) is meshed to the lower side of the third rack (2315), the third gear (2316) is connected to the seventh rotating shaft (2317) in a key mode, the seventh rotating shaft (2317) is rotatably connected with a third mounting block (2318), the third mounting block (2318) is fixed to the rack (1), and a second swing rod (2319) is eccentrically fixed to one end, away from the third gear (2316), of the seventh rotating shaft (2317).

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