CN114433486A - Automatic feeding device for packaging plastic production and implementation method thereof - Google Patents

Abstract

The invention discloses an automatic feeding device for packaging plastic production and an implementation method thereof, and relates to the technical field of plastic production devices. In order to solve traditional plastics production automatic feeding device for packing and can't count the packing, still adopt manual packaging's mode to count the packing, the hand labor is big, adopts material loading auto sucking machine to carry out automatic feeding, the high problem of material loading auto sucking machine energy consumption. This plastics production automatic feeding device for packing and implementation method thereof, transport the plastics part one by one to the conveyer belt through dividing the material blade respectively, the conveyer belt transports the plastics part to one side and makes things convenient for the packing plant to pack, after plastics part quantity reaches packing quantity, rotate partial shipment cover and rotate partial shipment board to lower hopper one side, separate plastics part and dividing the material blade, the mode of manual counting packing has been replaced, greatly reduced the hand labor, prevent the effectual jam that prevents down the flitch of stifled blade, the conveying efficiency of plastics part has been guaranteed, the production efficiency is greatly improved.

Description

Automatic feeding device for packaging plastic production and implementation method thereof

Technical Field

The invention relates to the technical field of plastic production devices, in particular to an automatic feeding device for packaging plastic production and an implementation method thereof.

Background

Most plastics are high molecular polymers formed by polymerization of by-products obtained by refining stone raw materials such as petroleum and the like. Thermoplastics, such as synthetic resins of the polyolefin system, are direct products of the petrochemical industry. Most plastics production automatic feeding device for packing in the market adopts material loading auto-feed to carry out automatic feeding with the auto-feed machine at present, nevertheless still has following several problems:

1. the traditional automatic feeding device for packaging plastic production cannot count and package, and still adopts a manual packaging mode to count and package, so that the manual labor is large, a feeding suction machine is adopted to automatically feed, and the feeding suction machine is high in energy consumption;

2. traditional plastics production automatic feeding device for packing can not sieve the plastics part, and the wastrel passes through automatic feeding device and carries to the packagine machine inner packing, has influenced production quality greatly.

Disclosure of Invention

The invention aims to provide an automatic feeding device for plastic production for packaging and an implementation method thereof.

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

the utility model provides a plastics production automatic feeding device for packing, construct and divide the dress mechanism in advance including material all in one piece mechanism, material all in one piece mechanism includes material all in one piece frame and vibrating device, material all in one piece frame upper surface both sides are respectively through bolt and vibrating device fixed connection, divide the dress mechanism in advance including the partial shipment frame, equally divide the device and prevent stifled device, partial shipment frame upper end is provided with respectively equally divide the device and prevents stifled device, prevent stifled device setting in equally divide device upper end one side, vibrating device one side lower extreme with equally divide device fixed connection, vibrating device sets up to two sets ofly, and the symmetry sets up respectively at material all in one piece frame upper surface.

Further, vibrating device comprises vibration dish and lower feed plate, the lower feed plate is the slope of slope form, the lower feed plate upper surface is provided with down the silo, vibration dish upper surface one side is through bolt and lower feed plate upper end fixed surface connection, lower feed plate lower extreme lower surface with divide equally device fixed connection, lower feed plate upper surface with prevent stifled device contact, the vibration dish is by vibration base, the vibration cover, vibration hopper and material all in one piece track constitute, vibration base upper surface border is respectively through bolt and vibration cover fixed connection, the vibration cover upper surface passes through bolt and vibration hopper lower surface border fixed connection, the vibration hopper inner wall is connected with material all in one piece track soldering.

Further, the center of the upper surface of the vibration base is fixedly connected with the lower surface of the lower electromagnetic base through a bolt, the upper surface of the vibration base is provided with a spring plate fixing lower seat, the upper surface of the lower electromagnetic base is provided with a movable groove, the movable groove is movably connected with the lower electromagnet in a nested manner, one side of the spring plate fixing lower seat is provided with a bolt fixing hole, the spring plate fixing lower seat is distributed by taking the center of the upper surface of the vibration base as a center symmetrically, one side of the bolt fixing hole is arranged to be an inclined plane, one side of the inclined plane is fixedly connected with the lower end of the vibration spring plate, one side of the vibration spring plate is provided with a fixing stud, and the bolt fixing hole is meshed with the fixing stud through an internal thread.

Further, the vibration hopper lower surface is respectively through bolt and upper cover upper surface fixed connection all around, the upper cover lower surface is provided with the fixed seat of honour of shell fragment symmetrical with the fixed seat of honour of shell fragment all around respectively, the fixed seat of honour one side of shell fragment is provided with the inclined plane that is parallel to each other with the fixed seat of honour one side of shell fragment, the fixed seat of honour inclined plane one side of shell fragment is provided with the bolt fastening hole unanimous with the fixed seat of down of shell fragment, bolt fastening hole respectively with vibration shell fragment upper end one side fixed connection, upper cover lower surface center is through bolt and last electromagnet fixed connection, the material all in one piece track is the heliciform winding and is vibrating the hopper inner wall.

Further, equally divide the device and include hopper, branch material body and conveyer down, lower hopper lower surface and racking machine frame upper surface fixed connection down, lower hopper is "L" type, and lower hopper one side sets up the slope into the slope of slope, lower hopper lower extreme one side and branch material body fixed connection, lower hopper lower extreme lower surface and conveyer contact, and lower hopper both sides are provided with the limiting plate respectively, and limiting plate and lower hopper upper surface center form the step.

Further, divide the material body to include first motor, keep off the material upper shield, partial shipment cover and divide material blade, first motor lower surface runs through respectively through the motor shaft and keeps off material upper shield and partial shipment cover and divide material blade upper surface center fixed connection, keep off material upper shield one side and be provided with the striker plate, the striker plate outside and hopper inner wall one side fixed connection down, partial shipment cover upper surface center and first gear fixed connection, first gear passes through the drive belt and is connected with the transmission of second gear, second gear lower extreme and second motor fixed connection.

Further, keep off material upper shield and first gear center and rotate through the motor shaft of bearing with first motor respectively and be connected, partial shipment cover lower extreme one side is provided with the partial shipment board, the partial shipment board set up into with the arc of hopper inner wall width looks adaptation down, the second motor lower surface passes through bolt and fixing base fixed connection, fixing base one side is through bolt and partial shipment frame one side fixed connection.

Further, the conveyer includes third motor, transportation area, transportation roller and stock guide, and motor shaft and transmission case fixed connection are passed through to third motor one side, and transmission case one side is passed through bolt and partial shipment frame one side fixed connection, and transmission case lower extreme one side is connected with the transmission of transportation roller, and transportation area both ends respectively with transportation roller nested connection, transportation roller both ends are respectively through bearing and partial shipment frame fixed connection, and the stock guide symmetry respectively sets up in transportation area upper surface both sides.

Further, damping spring is installed respectively to lower hopper upper end both sides, and lower hopper one side is provided with prevents stifled device, prevents stifled device including the back shaft with prevent stifled dish, back shaft both ends respectively through bolt and hopper outer wall both sides fixed connection down, back shaft upper end both sides respectively through bearing and prevent stifled dish swing joint, prevent being provided with rotation driving device in the stifled dish, prevent stifled dish outer wall and be provided with evenly distributed's stifled blade respectively.

The invention provides another technical scheme, and an implementation method of an automatic feeding device for packaging plastic production comprises the following steps:

the method comprises the following steps: plastic parts are respectively lifted to a blanking plate along a material arranging track through a vibrating disc, the plastic parts are sequentially conveyed to a blanking hopper through a blanking plate, and the plastic parts are respectively conveyed to a conveying belt one by one through a material distributing blade;

step two: after the quantity of plastic parts reaches the packing quantity, the sub-packaging plate is rotated to one side of the discharging hopper through rotating the sub-packaging cover, the conveying belt conveys the plastic parts to one side to be convenient for a packaging device to package, after the sub-packaging cover is rotated after the completion, the first step is repeated, and the plastic parts are conveyed to the conveying belt one by one through the distributing blades.

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

1. according to the automatic feeding device for plastic production for packaging and the implementation method thereof, magnetic force is generated by the lower electromagnet and the upper electromagnet respectively, the upper cover is adsorbed to vibrate in the vertical direction, the inclined vibration elastic sheet enables the vibration direction to do torsional oscillation around the vertical axis, the plastic parts in the vibration hopper rise along the material arranging rails under the vibration, the material arranging rails respectively screen the plastic parts, the screened qualified plastic parts are conveyed to the blanking plate, the screened unqualified plastic parts fall into the vibration hopper, the energy consumption is low, the production quality of the plastic parts is greatly improved, the qualified rate of the packaged plastic parts is ensured, and the working efficiency is improved.

2. According to the automatic feeding device for plastic production for packaging and the implementation method thereof, the plastic parts are respectively transported to the transporting belt one by one through the distributing blade, the transporting belt transports the plastic parts to one side to be convenient for packaging by the packaging device, the sub-packaging cover is rotated to rotate the sub-packaging plate to one side of the discharging hopper after the number of the plastic parts reaches the packaging number, the plastic parts are separated from the distributing blade, the sub-packaging cover is rotated after packaging is completed, the distributing blade continues to transport the plastic parts to the transporting belt one by one, the manual counting and packaging mode is replaced, the manual labor force is greatly reduced, the anti-blocking blade effectively prevents the blocking of the discharging plate, the transporting efficiency of the plastic parts is ensured, and the production efficiency is greatly improved.

Drawings

FIG. 1 is a perspective view of the overall construction of the present invention;

FIG. 2 is a perspective view of the vibratory pan of the present invention;

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

FIG. 4 is an exploded view of the vibratory hopper of the present invention;

FIG. 5 is a perspective view of the dispensing mechanism of the present invention;

FIG. 6 is an exploded perspective view of the dispensing body of the present invention;

FIG. 7 is an exploded perspective view of the transport device of the present invention;

fig. 8 is a perspective view of the anti-clogging device of the present invention.

In the figure: 1. a material distributing mechanism; 11. a monolith frame; 12. a vibrating device; 121. a vibrating pan; 1211. vibrating the base; 1212. a vibration cage; 1213. vibrating the hopper; 1214. a monolith track; 1215. a lower electromagnetic base; 1216. the elastic sheet is fixed on the lower seat; 1217. a lower electromagnet; 1218. a bolt fixing hole; 1219. vibrating the elastic sheet; 122. a blanking plate; 123. an upper cover; 1231. the elastic sheet is fixed on the upper seat; 1232. electrifying an electromagnet; 124. a discharging groove; 2. a subpackaging mechanism; 21. a split charging rack; 22. an averaging device; 221. feeding a hopper; 222. a material distributing body; 2221. a first motor; 2222. a material blocking upper cover; 2223. a split charging cover; 2224. a material distributing blade; 2225. a striker plate; 2226. a first gear; 2227. a second gear; 2228. a second motor; 2229. a board is subpackaged; 223. a transportation device; 2231. a third motor; 2232. a conveyor belt; 2233. a transport roller; 2234. a material guide plate; 2235. a transmission case; 224. a damping spring; 225. a fixed seat; 23. an anti-blocking device; 231. a support shaft; 232. anti-blocking disc; 233. anti-blocking blades.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1-3, an automatic feeding device for plastic production for packaging comprises a material arranging mechanism 1 and a pre-distributing mechanism 2, wherein the material arranging mechanism 1 comprises a material arranging frame 11 and a vibrating device 12, two sides of the upper surface of the material arranging frame 11 are fixedly connected with the vibrating device 12 through bolts, the pre-distributing mechanism 2 comprises a distributing frame 21, a material distributing device 22 and an anti-blocking device 23, the upper end of the distributing frame 21 is provided with the material distributing device 22 and the anti-blocking device 23, the anti-blocking device 23 is arranged on one side of the upper end of the material distributing device 22, the lower end of one side of the vibrating device 12 is fixedly connected with the material distributing device 22, the vibrating devices 12 are arranged in two groups and are symmetrically arranged on the upper surface of the material arranging frame 11, the vibrating device 12 is composed of a vibrating disc 121 and a blanking plate 122, the blanking plate 122 is an inclined slope, the upper surface of the blanking plate 122 is provided with a blanking groove 124, one side of the upper surface of the vibrating disc 121 is fixedly connected with the lower surface of the blanking plate 122 through bolts, the lower end lower surface of the lower material plate 122 is fixedly connected with the equipartition device 22, the upper surface of the lower material plate 122 is contacted with the anti-blocking device 23, the vibration disc 121 is composed of a vibration base 1211, a vibration cover 1212, a vibration hopper 1213 and a material arrangement track 1214, the upper surface of the vibration base 1211 is provided with a movable groove which is movably connected with the lower electromagnet 1217 in a nested manner, the upper surface of the vibration cover 1212 is fixedly connected with the lower surface edge of the vibration hopper 1213 through bolts, the inner wall of the vibration hopper 1213 is connected with the material arrangement track 1214 in a soldering manner, the center of the upper surface of the vibration base 1211 is fixedly connected with the periphery of the lower surface of the lower electromagnetic base 1215 through bolts, the periphery of the upper surface of the vibration base 1211 is respectively provided with a spring plate fixing lower seat 1216, the upper surface of the lower electromagnetic base 1215 is fixedly connected with the lower electromagnet 1217 through bolts, one side of the spring plate fixing lower seat 1216 is respectively provided with bolt fixing holes 1218, the spring plate fixing lower seats are respectively and are symmetrically distributed by taking the center of the upper surface of the vibration base 1211 as the center, one side of the bolt fixing hole 1218 is provided with an inclined plane, one side of the inclined plane is fixedly connected with the lower end of the vibration shrapnel 1219, one side of the vibration shrapnel 1219 is provided with a fixing stud, the bolt fixing hole 1218 is engaged with the fixing stud through internal threads, the lower surface of the vibration hopper 1213 is respectively fixedly connected with the periphery of the upper surface of the upper cover 123 through bolts, the periphery of the lower surface of the upper cover 123 is respectively provided with a shrapnel fixing upper seat 1231 which is symmetrical to the shrapnel fixing lower seat 1216, one side of the shrapnel fixing upper seat 1231 is provided with an inclined plane which is parallel to one side of the shrapnel fixing lower seat 1216, one side of the inclined plane of the shrapnel fixing upper seat 1231 is provided with a bolt fixing hole 1218 which is consistent with the shrapnel fixing lower seat 1216, the bolt fixing hole 1218 is respectively fixedly connected with one side of the upper end of the vibration shrapnel 1219, the center of the lower surface of the upper cover 123 is fixedly connected with the upper electromagnet 1232 through bolts, and the material arranging track 1214 is spirally wound on the inner wall of the vibration hopper 1213, produce magnetic force through lower electro-magnet 1217 and last electro-magnet 1232 respectively, adsorb the vibration of upper cover 123 vertical direction, two electro-magnets have increased vibration frequency, the vibration shell fragment 1219 of slope makes the vibration direction do the torsional oscillation around the vertical axis, the plastics part in the vibration hopper 1213 rises along whole piece track 1214 under the vibration, whole piece track 1214 filters the plastics part respectively, the qualified plastics part of screening is carried to unloading board 122, the unqualified plastics part of screening drops to in the vibration hopper 1213, the energy consumption is low, the production quality of plastics part is greatly improved, the qualification rate of the plastics part of packing has been guaranteed, and the work efficiency is improved.

Referring to fig. 4-8, the dividing device 22 includes a lower hopper 221, a material distributing body 222 and a transporting device 223, the lower surface of the lower hopper 221 is fixedly connected with the upper surface of the sub-packaging frame 21, the lower hopper 221 is L-shaped, one side of the lower hopper 221 is set as an inclined slope, one side of the lower end of the lower hopper 221 is fixedly connected with the material distributing body 222, the lower surface of the lower end of the lower hopper 221 is in contact with the transporting device 223, limit plates are respectively arranged on two sides of the lower hopper 221, the limit plates and the upper surface center of the lower hopper 221 form a step, the material distributing body 222 includes a first motor 2221, a material blocking upper cover 2222, a sub-packaging cover 2223 and a material distributing blade 2224, the lower surface of the first motor 2221 respectively penetrates through the material blocking upper cover 2222 and the sub-packaging cover 2223 to be fixedly connected with the upper surface center of the material distributing blade 2224 through a motor shaft, one side of the material blocking upper cover 2222 is provided with a material blocking 2225, the outer side of the material blocking plate 2225 is fixedly connected with one side of the inner wall of the lower hopper 221, the center of the upper surface of the separate loading cover 2223 is fixedly connected with a first gear 2226, the first gear 2226 is in transmission connection with a second gear 2227 through a transmission belt, the lower end of the second gear 2227 is fixedly connected with a second motor 2228, the centers of the upper material blocking cover 2222 and the first gear 2226 are respectively in rotation connection with a motor shaft of the first motor 2221 through bearings, one side of the lower end of the separate loading cover 2223 is provided with a separate loading plate 2229, the separate loading plate 2229 is set into an arc shape matched with the width of the inner wall of the lower hopper 221, the lower surface of the second motor 2228 is fixedly connected with a fixed seat 225 through bolts, one side of the fixed seat 225 is fixedly connected with one side of the separate loading rack 21 through bolts, the transportation device 223 comprises a third motor 2231, a transportation belt 2232, a transportation roller 2233 and a material guide plate 2234, one side of the third motor 2231 is fixedly connected with a transmission box 2235 through a motor shaft, one side of the transmission box 2235 is fixedly connected with one side of the separate loading rack 21 through bolts, one side of the lower end of the transmission box 2233 is in transmission connection with the transportation roller 2233, two ends of a conveying belt 2232 are respectively connected with a conveying roller 2233 in an embedded manner, two ends of the conveying roller 2233 are respectively fixedly connected with the sub-packaging machine frame 21 through bearings, guide plates 2234 are respectively and symmetrically arranged on two sides of the upper surface of the conveying belt 2232, two sides of the upper end of the lower hopper 221 are respectively provided with a damping spring 224, one side of the lower hopper 221 is provided with an anti-blocking device 23, the anti-blocking device 23 comprises a support shaft 231 and an anti-blocking disc 232, two ends of the support shaft 231 are respectively and fixedly connected with two sides of the outer wall of the lower hopper 221 through bolts, two sides of the upper end of the support shaft 231 are respectively and movably connected with the anti-blocking disc 232 through bearings, a rotation driving device is arranged in the anti-blocking disc 232, the outer wall of the anti-blocking disc 232 is respectively provided with anti-blocking blades 233 which are uniformly distributed, the anti-blocking discs 233 are respectively driven to rotate through the rotation driving device, the anti-blocking blades 233 sweep plastic parts on the upper surface of the lower end of the lower plate 122 once, the falling speed of the plastic parts is improved, and the blanking efficiency is improved, save the unloading time, transport one by one plastic part to transport on taking 2232 through dividing material blade 2224 respectively, transport and take 2232 to transport one side plastic part and make things convenient for the packing plant to pack, after plastic part quantity reached packing quantity, rotate partial shipment cover 2223 and rotate partial shipment board 2229 to hopper 221 one side down, separate plastic part and dividing material blade 2224, rotate partial shipment cover 2223 after the packing is accomplished, divide material blade 2224 to continue transporting plastic part one by one to transport on taking 2232, the mode of manual counting packing has been replaced, greatly reduced hand labor, prevent the effectual jam that prevents down flitch 122 of stifled blade 233, the conveying efficiency of plastic part has been guaranteed, the production efficiency is greatly improved.

An implementation method of an automatic feeding device for packaging plastic production comprises the following steps:

the method comprises the following steps: the plastic parts are respectively lifted to the blanking plate 122 along the material distributing rail 1214 through the vibrating disk 121, the plastic parts are sequentially conveyed to the blanking hopper 221 through the blanking plate 122, and the plastic parts are respectively conveyed to the conveying belt 2232 one by one through the material distributing blades 2224;

step two: after the number of the plastic parts reaches the packaging number, the sub-packaging plate 2229 is rotated to one side of the discharging hopper 221 by rotating the sub-packaging cover 2223, the plastic parts are transported to one side by the transport belt 2232, so that the packaging device can package the plastic parts conveniently, after the sub-packaging cover 2223 is rotated, the first step is repeated, and the plastic parts are transported to the transport belt 2232 one by one through the sub-packaging blades 2224.

To sum up, the automatic feeding device for plastic production for packaging and the implementation method thereof generate magnetic force through the lower electromagnet 1217 and the upper electromagnet 1232 respectively, the vibration in the vertical direction of the upper cover 123 is absorbed, the inclined vibration spring 1219 makes the vibration direction do torsional oscillation around the vertical axis, the plastic parts in the vibration hopper 1213 rise along the material arranging track 1214 under the vibration, the material arranging track 1214 screens the plastic parts respectively, the screened qualified plastic parts are conveyed to the lower material plate 122, the screened unqualified plastic parts fall into the vibration hopper 1213, the energy consumption is low, the production quality of the plastic parts is greatly improved, the qualification rate of the packaged plastic parts is ensured, the working efficiency is improved, the anti-blocking disk 232 is driven to rotate through the rotation driving device respectively, the anti-blocking blade 233 sweeps down the plastic parts on the upper surface of the lower end of the lower material plate 122 once, the falling speed of the plastic parts is improved, improve unloading efficiency, save the unloading time, transport plastics part one by one to the conveyer belt 2232 through dividing material blade 2224 respectively, the conveyer belt 2232 transports plastics part to one side and makes things convenient for the packing plant to pack, after plastics part quantity reached packing quantity, rotate partial shipment cover 2223 and rotate partial shipment board 2229 to hopper 221 one side down, separate plastics part and dividing material blade 2224, rotate partial shipment cover 2223 after the packing is accomplished, divide material blade 2224 to continue transporting plastics part one by one to conveyer belt 2232 on, the mode of manual counting packing has been replaced, greatly reduced the hand labor, prevent that stifled blade 233 is effectual to prevent down the jam of flitch 122, the conveying efficiency of plastics part has been guaranteed, production efficiency is greatly improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The utility model provides a plastics production automatic feeding device for packing, includes material all in one piece mechanism (1) and pre-subpackage mechanism (2), its characterized in that: monolith mechanism (1) is including monolith frame (11) and vibrating device (12), bolt and vibrating device (12) fixed connection are passed through respectively to monolith frame (11) upper surface both sides, pre-install mechanism (2) are including partial shipment frame (21), equally divide device (22) and prevent stifled device (23), partial shipment frame (21) upper end is provided with respectively equally divide device (22) and prevent stifled device (23), prevent stifled device (23) setting and equally divide device (22) upper end one side, vibrating device (12) one side lower extreme and equally divide device (22) fixed connection, vibrating device (12) set up to two sets ofly, and the symmetry sets up respectively at monolith frame (11) upper surface.

2. An automatic feeding device for the production of plastic for packaging as claimed in claim 1, characterized in that: the vibrating device (12) is composed of a vibrating disk (121) and a blanking plate (122), the blanking plate (122) is an inclined slope, a blanking groove (124) is arranged on the upper surface of the blanking plate (122), one side of the upper surface of the vibrating disk (121) is fixedly connected with the lower surface of the upper end of the blanking plate (122) through a bolt, the lower surface of the lower end of the blanking plate (122) is fixedly connected with an equal dividing device (22), the upper surface of the blanking plate (122) is contacted with an anti-blocking device (23), the vibrating disk (121) is composed of a vibrating base (1211) and a vibrating cover (1212), the vibrating hopper (1213) and the material all in one piece track (1214) constitute, and the vibration base (1211) upper surface border is fixed connection with the vibration cover (1212) through the bolt respectively, and the vibration cover (1212) upper surface passes through the bolt and the fixed connection of vibration hopper (1213) lower surface border, and the vibration hopper (1213) inner wall is connected with material all in one piece track (1214) tin soldering.

3. An automatic feeding device for the production of plastic for packaging as claimed in claim 2, characterized in that: the center of the upper surface of a vibration base (1211) is fixedly connected with the periphery of the lower surface of a lower electromagnetic base (1215) through a bolt, the periphery of the upper surface of the vibration base (1211) is respectively provided with a lower spring plate fixing seat (1216), the upper surface of the lower electromagnetic base (1215) is provided with a movable groove, the movable groove is movably connected with a lower electromagnet (1217) in a nested manner, one side of the lower spring plate fixing seat (1216) is respectively provided with a bolt fixing hole (1218), the lower spring plate fixing seats (1216) are respectively distributed by taking the center of the circle of the upper surface of the vibration base (1211) as a center in a symmetrical manner, one side of the bolt fixing hole (1218) is arranged to be an inclined plane, one side of the inclined plane is fixedly connected with the lower end of a vibration spring plate (1219), one side of the vibration spring plate (1219) is provided with a fixing stud, and the bolt fixing hole (1218) is meshed with the fixing stud through an internal thread.

4. An automatic feeding device for the production of plastic for packaging as claimed in claim 3, characterized in that: vibration hopper (1213) lower surface is respectively through bolt and upper cover (123) upper surface fixed connection all around, upper cover (123) lower surface is provided with all around respectively and fixes upper seat (1231) with the symmetrical shell fragment of shell fragment fixed lower seat (1216), shell fragment fixed upper seat (1231) one side is provided with the inclined plane that is parallel to each other with shell fragment fixed lower seat (1216) one side, shell fragment fixed upper seat (1231) inclined plane one side is provided with bolt fastening hole (1218) unanimous with shell fragment fixed lower seat (1216), bolt fastening hole (1218) respectively with vibration shell fragment (1219) upper end one side fixed connection, upper cover (123) lower surface center is through bolt and last electromagnet (1232) fixed connection, material all in one piece track (1214) are the heliciform winding and are vibrating hopper (1213) inner wall.

5. An automatic feeding device for the production of plastic for packaging as claimed in claim 1, characterized in that: equally divide device (22) including down hopper (221), divide material body (222) and conveyer (223), down hopper (221) lower surface and partial shipment frame (21) upper surface fixed connection, down hopper (221) are "L" type, down hopper (221) one side sets up to the slope of slope, down hopper (221) lower extreme one side and branch material body (222) fixed connection, down hopper (221) lower extreme lower surface and conveyer (223) contact, down hopper (221) both sides are provided with the limiting plate respectively, the limiting plate forms the step with lower hopper (221) upper surface center.

6. An automatic feeding device for the production of plastic for packaging as claimed in claim 5, characterized in that: divide material body (222) including first motor (2221), keep off material upper shield (2222), partial shipment cover (2223) and divide material blade (2224), keep off material upper shield (2222) and partial shipment cover (2223) and divide material blade (2224) upper surface center fixed connection are run through respectively through the motor shaft to first motor (2221) lower surface, keep off material upper shield (2222) one side and be provided with striker plate (2225), striker plate (2225) outside and hopper (221) inner wall one side fixed connection down, partial shipment cover (2223) upper surface center and first gear (2226) fixed connection, first gear (2226) are connected with second gear (2227) transmission through the drive belt, second gear (2227) lower extreme and second motor (2228) fixed connection.

7. An automatic feeding device for the production of plastic for packaging as claimed in claim 6, characterized in that: keep off material upper shield (2222) and first gear (2226) center and rotate through the motor shaft of bearing with first motor (2221) respectively and be connected, partial shipment cover (2223) lower extreme one side is provided with partial shipment board (2229), partial shipment board (2229) set up to the arc with hopper (221) inner wall width looks adaptation down, second motor (2228) lower surface passes through bolt and fixing base (225) fixed connection, fixing base (225) one side is through bolt and partial shipment frame (21) one side fixed connection.

8. An automatic feeding device for the production of plastic for packaging as claimed in claim 5, characterized in that: the conveying device (223) comprises a third motor (2231), a conveying belt (2232), a conveying roller (2233) and guide plates (2234), one side of the third motor (2231) is fixedly connected with a transmission box (2235) through a motor shaft, one side of the transmission box (2235) is fixedly connected with one side of the subpackaging machine frame (21) through bolts, one side of the lower end of the transmission box (2235) is in transmission connection with the conveying roller (2233), the two ends of the conveying belt (2232) are respectively in nested connection with the conveying roller (2233), the two ends of the conveying roller (2233) are respectively fixedly connected with the subpackaging machine frame (21) through bearings, and the guide plates (2234) are respectively and symmetrically arranged on the two sides of the upper surface of the conveying belt (2232).

9. An automatic feeding device for the production of plastic for packaging as claimed in claim 5, characterized in that: damping spring (224) are installed respectively to lower hopper (221) upper end both sides, lower hopper (221) one side is provided with prevents stifled device (23), prevent stifled device (23) including back shaft (231) and prevent stifled dish (232), back shaft (231) both ends are respectively through bolt and lower hopper (221) outer wall both sides fixed connection, back shaft (231) upper end both sides are respectively through bearing and prevent stifled dish (232) swing joint, prevent being provided with in stifled dish (232) and rotate drive arrangement, prevent stifled dish (232) outer wall and be provided with evenly distributed's stifled blade (233) respectively.

10. A method for implementing an automatic feeding device for the production of packaging plastics according to any one of claims 1 to 9, characterized in that: the method comprises the following steps:

the method comprises the following steps: plastic parts are respectively lifted to a blanking plate (122) along a material arranging track (1214) through a vibrating disc (121), the plastic parts are sequentially conveyed to a blanking hopper (221) through the blanking plate (122), and the plastic parts are respectively conveyed to a conveying belt (2232) one by one through a material distributing blade (2224);

step two: after the number of the plastic parts reaches the packaging number, the sub-packaging plate (2229) is rotated to one side of the lower hopper (221) by rotating the sub-packaging cover (2223), the plastic parts are transported to one side by the transport belt (2232) to be convenient for a packaging device to package, after the sub-packaging cover (2223) is rotated, the first step is repeated, and the plastic parts are transported to the transport belt (2232) one by one through the sub-packaging blades (2224).

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