CN118181651B - Automatic plastic shell injection molding feeding device - Google Patents

Abstract

The invention discloses an automatic plastic shell injection molding and blanking device, which belongs to the technical field of injection molding and blanking and comprises a vehicle body, wherein movable wheels are rotatably arranged on two sides of the vehicle body through rotating shafts, two built-in grooves are formed in the vehicle body, pushing hands are fixedly arranged on the outer wall of the other side of the vehicle body, lifting assemblies are arranged in the two built-in grooves, a material box is arranged at the top of each lifting assembly, the lifting assemblies are used for stably lifting the material box, and a driving motor is fixedly arranged on the outer wall of one side of the material box; according to the invention, the feeding accessory and the auxiliary discharging assembly are arranged in a matched manner, so that the auxiliary discharging action can be performed in the discharging process of the injection molding material, the discharging smoothness and efficiency of the injection molding material are greatly improved, the situation that the discharging is unsmooth or the stacking is blocked due to some solidified injection molding materials is effectively avoided, the equipment is not required to be maintained frequently, and the practical application effect of the whole equipment is greatly improved.

Description

Automatic plastic housing unloader that moulds plastics

Technical Field

The invention belongs to the technical field of injection molding and discharging, and particularly relates to an automatic plastic housing injection molding and discharging device.

Background

Injection molding is a common plastic manufacturing process, and refers to a process of heating and melting plastic materials and then injecting the melted plastic materials into a mold for molding. Specifically, after the plastic is heated to a certain temperature, the injection molding machine injects the dissolved plastic into a closed mold cavity under extremely high pressure, then the mold is cooled and molded, and the plastic product is ejected from the top plate after the mold is opened. The processing mode has various advantages, such as high efficiency, high speed, low cost, short production period, good-performance of the produced products, and the like, so that the processing mode is widely applied to the production of various plastic products, such as the fields of electronics, home furnishings, automobiles, and the like, and the injection molding material is required to be fed in the injection molding processing process, and the injection molding material is required to be applied to a feeding device.

Chinese patent discloses (CN 116901360A) a feeding and discharging device of an injection molding machine, and relates to the technical field of injection molding machines. The screw type injection machine comprises a mounting seat, wherein a screw type injection machine is fixed on the mounting seat, a spiral sheet in the screw type injection machine rotates through motor driving, a connecting pipe is arranged at a feeding hole at the upper end of the screw type injection machine, a feeding pipe is vertically arranged in the connecting pipe, a screening component is vertically inserted in the connecting pipe, a material with large particles is limited from the bottom end of the feeding pipe to enter the connecting pipe, a pressing part for processing the melted material into a finished product with a specified shape is arranged on the mounting seat, and a discharging component for taking out the processed finished product from the pressing part is arranged on the mounting seat. The equipment has the effects that the materials with larger particles are not easy to exist, and enter the screw type injection machine, so that the melting materials are uniform, and the quality of the final formed finished product is good. The injection molding and discharging device at present can complete the injection molding and discharging process, but has some problems in practical application, when injection molding materials are transported to one end of the device, the discharging is realized by the mobility of the injection molding materials in real time due to no auxiliary structure, and when the injection molding materials are partially coagulated, the discharging effect and efficiency can be greatly reduced, so that the application effect of the whole equipment cannot be continuously ensured, and in order to solve the problems, the need of an automatic injection molding and discharging device for plastic shells is urgent.

Disclosure of Invention

The invention aims at: in order to solve the problems that the injection molding and discharging device can complete the injection molding and discharging process at present, but some problems still occur in practical application, when injection molding materials are transported to one end of the device, the discharging is realized by the fact that the auxiliary structure is not used for assisting discharging, when the injection molding materials are partially coagulated and the like, the discharging effect and efficiency are greatly reduced, the application effect of the whole equipment cannot be continuously ensured, and the automatic plastic shell injection molding and discharging device is provided.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides an automatic plastic housing unloader that moulds plastics, includes the automobile body, the both sides of automobile body are rotated through the pivot and are installed the running wheel, the inside of automobile body is provided with two built-in grooves, fixed mounting has the pushing hands on the opposite side outer wall of automobile body, and the inside of two built-in grooves all is provided with lifting means, and the top of two lifting means is provided with the workbin, and lifting means is used for the steady promotion of workbin, fixed mounting has driving motor on one side outer wall of workbin, be provided with the pan feeding mouth on the top surface of workbin, driving motor's output shaft one end fixed mounting has drive screw, fixed mounting has a plurality of threaded rods on one side inner wall of workbin, the shell intracavity of workbin is provided with the electrothermal tube, the external screw thread of drive screw installs the pay-off accessory, and the pay-off accessory is used for the steady propelling movement of notes plastics, the supplementary unloading subassembly is installed in the rotation of workbin, and supplementary unloading subassembly is used for the supplementary unloading of notes plastics.

As a further description of the above technical solution:

the feeding accessory comprises a feeding plate, a mounting groove is formed in the inner side of the feeding plate, a plurality of scraping assemblies are arranged in the mounting groove, sliding holes and threaded holes are formed in the feeding plate, a driving screw is in threaded connection with the threaded holes, and the threaded rod is in sliding connection with the sliding holes.

As a further description of the above technical solution:

the scraping assembly comprises an installation inner shell, a thermal expansion strip is arranged in the installation inner shell, and a scraping plate is arranged on the top surface of the thermal expansion strip.

As a further description of the above technical solution:

One end of the scraping plate is in sliding connection with the inner wall of the installation inner shell, a connecting spring is fixedly installed on the bottom surface of the scraping plate, and the bottom end of the connecting spring is fixedly connected with the inner wall of the bottom surface of the installation inner shell.

As a further description of the above technical solution:

The outside of slide hole is provided with on the surface of charge-up board and stirs the material subassembly, stirs the stable stirring that the material subassembly is used for the notes plastics, it includes the installation barrel casing to stir the material subassembly, installation barrel casing fixed mounting is in the outside of slide hole.

As a further description of the above technical solution:

The inside rotation of installation barrel casing is installed the screw thread rotary drum, fixed mounting has a plurality of inclined stirring blades on the surface of screw thread rotary drum, threaded rod and screw thread threaded connection that the inside of screw thread rotary drum set up.

As a further description of the above technical solution:

The auxiliary blanking assembly comprises a mounting shaft, the mounting shaft is rotatably mounted in the feed box, a transmission worm is fixedly mounted in the middle of the mounting shaft, and blanking blades are fixedly mounted outside the mounting shaft on two sides of the transmission worm.

As a further description of the above technical solution:

the driving screw is characterized in that an engagement worm disk is fixedly arranged outside the driving screw, the driving screw is in meshed connection with the engagement worm disk, and no self-locking arrangement is arranged between the driving screw and the engagement worm disk.

Further, through supporting pay-off accessory and the supplementary unloading subassembly of being provided with, when carrying out the unloading to the material of moulding plastics, directly open driving motor, driving motor can drive the drive screw and rotate, at first, driving screw can order about the pay-off accessory to remove in the workbin, the pay-off accessory can be with the effective side-pushing of material of moulding plastics, driving screw can drive the meshing spiral case and rotate, the meshing spiral case can drive the transmission worm of supplementary unloading subassembly when rotating, the installation axle can synchronous rotation, the installation axle can drive a plurality of unloading blades on it and rotate, rotatory unloading blade can stir the material of moulding plastics that the pay-off accessory propelling movement is to its nearby to one side, finally export through the discharge gate, after the propelling movement is accomplished, control pay-off accessory resets, transmission worm and unloading blade reversal at this moment, the unloading blade of reversal can be with just not just sending out the clout again in the workbin, wait for next work flow to export, thereby reciprocal, realize the steady unloading of moulding plastics, through this design, can carry out supplementary ejection of compact action in the unloading process, the unloading to the unloading of moulding plastics degree and efficiency are improved greatly, thereby the actual situation of not having improved the problem that the solidification is difficult to take place to the big equipment of the equipment of moulding plastics is usually carried out, the equipment is not has been prevented to the big maintenance of the fact.

As a further description of the above technical solution:

the lifting assembly comprises a lifting pushing hydraulic cylinder, the lifting pushing hydraulic cylinder is fixedly arranged in the built-in groove, and one end of an output shaft of the lifting pushing hydraulic cylinder is fixedly provided with an installation protection frame through a hydraulic rod.

As a further description of the above technical solution:

The inner side of the installation protection frame is fixedly provided with a connecting pin shaft, the connecting pin shaft penetrates through a positioning hole formed in the workbin, one end of the workbin is fixedly provided with a side box cover, and one side outer wall of the side box cover is provided with a discharge hole.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. According to the invention, the feeding accessory and the auxiliary blanking component are arranged in a matching way, when the injection molding material is blanked, the driving motor is directly started, the driving motor can drive the driving screw to rotate, firstly, the driving screw can drive the feeding accessory to move in the material box, the feeding accessory can effectively push the injection molding material to the side, the driving screw can drive the meshing worm disk to rotate, the meshing worm disk can drive the driving worm of the auxiliary blanking component to rotate at a low speed when rotating, the mounting shaft can synchronously rotate, the mounting shaft can drive a plurality of blanking blades on the mounting shaft to rotate, the rotating blanking blades can push the feeding accessory to push the injection molding material nearby to one side for poking, finally, the feeding accessory is led out through the discharging hole, after pushing is finished, the driving worm and the blanking blades are controlled to be reset, and the inverted blanking blades can reintroduce the residual material which is just incompletely sent out into the material box to wait for the next working flow to be led out, so that the driving worm is reciprocated, the stable blanking of the injection molding material is realized, by the design, the auxiliary discharging action can be carried out in the blanking process of the injection molding material blanking process, the blanking smoothness and the blanking efficiency are greatly improved, and the actual accumulation effect is not required to be greatly improved, and the blanking equipment is prevented from being frequently used for the whole injection molding equipment.

2. According to the invention, the scraping assembly is arranged in the feeding accessory, so that in the injection molding material feeding process, the injection molding material needs to be prevented from being solidified in a large area, the electric heating tube is started to ensure the temperature of the injection molding material, the temperature is conducted to the scraping assembly, the thermal expansion strips in the scraping assembly sense the temperature and can generate volume expansion, the thermal expansion strips can push the scraping plates upwards, so that each scraping plate is in closer contact with the inner wall of the material box, at the moment, along with the movement of the feeding accessory, the scraping plates can effectively scrape the inner wall of the material box, the injection molding material remained on the inner wall of the material box is scraped, the residual material is prevented from being hung, the effective utilization of resources can be effectively ensured, the waste of resources is avoided, when the equipment is stopped, the scraping plates can be automatically stored, and a fine gap is generated between the feeding accessory and the inner wall of the material box, so that the water liquid can circulate in the device in an omnibearing manner when the equipment is cleaned in an inner circulation manner, and the cleaning effect is improved.

3. According to the invention, the stirring assembly is arranged on the feeding accessory in a matched manner, and can be synchronously driven to move in the moving process of the feeding accessory, at the moment, the threaded rod can be in relative displacement with the stirring assembly, the threaded rotary drum and the inclined stirring blades can synchronously rotate due to the threaded connection relation of the threaded rod and the threaded rotary drum, and the inclined stirring blades can realize stable stirring treatment on the injection molding material, so that the fluidity of the injection molding material is further improved.

Drawings

Fig. 1 is a schematic perspective view of an automatic plastic housing injection molding and blanking device.

Fig. 2 is a schematic perspective view of another angle of an automatic plastic housing injection molding and discharging device.

Fig. 3 is an exploded perspective view of an automatic plastic housing injection molding and blanking device.

Fig. 4 is a schematic perspective view of a bin after a side bin cover is detached in an automatic plastic housing injection molding and discharging device.

Fig. 5 is a schematic diagram of an exploded perspective view of a bin in an automatic plastic housing injection molding and blanking device.

Fig. 6 is an exploded perspective view of a drive screw, a feed fitting and a stirring assembly in an automatic plastic housing injection molding and blanking device.

Fig. 7 is a schematic perspective view of a stirring assembly in an automatic plastic housing injection molding and blanking device.

Fig. 8 is an exploded perspective view of a feeding fitting in an automatic plastic housing injection molding and discharging device.

Fig. 9 is an exploded perspective view of a scraping assembly in an automatic plastic housing injection molding and blanking device.

Fig. 10 is a schematic perspective view of a discharging assembly in an automatic plastic housing injection molding and discharging device.

Legend description:

1. A feed box; 2. a driving motor; 3. pushing hands; 4. a movable wheel; 5. a vehicle body; 6. a side case cover; 7. a discharge port; 8. a residue collection box; 9. a lifting assembly; 91. installing a protective frame; 92. a connecting pin shaft; 93. lifting and pushing hydraulic cylinders; 10. a built-in groove; 11. a threaded rod; 12. an auxiliary blanking component; 121. a drive worm; 122. blanking blades; 123. a mounting shaft; 13. a stirring assembly; 131. obliquely arranging stirring blades; 132. a threaded rotating drum; 133. installing a cylinder sleeve; 14. a feeding fitting; 141. a scraping assembly; 1411. a scraping plate; 1412. a connecting spring; 1413. a thermal expansion strip; 1414. installing an inner shell; 142. a mounting groove; 143. a feeding plate; 144. a slide hole; 145. a threaded hole; 15. driving a screw; 16. meshing worm disk; 17. and a feed inlet.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the present invention provides a technical solution: the utility model provides an automatic plastic housing unloader that moulds plastics, includes automobile body 5, the both sides of automobile body 5 are rotated through the pivot and are installed running wheel 4, the inside of automobile body 5 is provided with two built-in grooves 10, fixed mounting has pushing hands 3 on the opposite side outer wall of automobile body 5, and the inside of two built-in grooves 10 all is provided with lifting element 9, and the top of two lifting element 9 is provided with workbin 1, lifting element 9 is used for the steady promotion of workbin 1, fixed mounting has driving motor 2 on the outer wall of one side of workbin 1, be provided with pan feeding mouth 17 on the top surface of workbin 1, driving motor 2's output shaft one end fixed mounting has drive screw 15, fixed mounting has a plurality of threaded rods 11 on the inner wall of one side of workbin 1, the shell intracavity of workbin 1 is provided with the electrothermal tube, the external screw thread of drive screw 15 installs pay-off accessory 14, and the pay-off accessory 14 is used for the steady propelling movement of notes plastics, auxiliary blanking subassembly 12 is installed to the rotation of workbin 1, auxiliary blanking subassembly 12 is used for the auxiliary blanking of notes plastics.

The feeding accessory 14 comprises a feeding plate 143, a mounting groove 142 is formed in the inner side of the feeding plate 143, a plurality of scraping assemblies 141 are arranged in the mounting groove 142, sliding holes 144 and threaded holes 145 are formed in the feeding plate 143, the driving screw 15 is in threaded connection with the threaded holes 145, and the threaded rod 11 is in sliding connection with the sliding holes 144.

The auxiliary blanking assembly 12 comprises a mounting shaft 123, the mounting shaft 123 is rotatably mounted in the feed box 1, a transmission worm 121 is fixedly mounted in the middle of the mounting shaft 123, blanking blades 122 are fixedly mounted on the two sides of the transmission worm 121 outside the mounting shaft 123, a meshing worm disk 16 is fixedly mounted on the outer portion of the driving screw 15, the transmission worm 121 is in meshed connection with the meshing worm disk 16, and no self-locking arrangement is arranged between the transmission worm 121 and the meshing worm disk 16.

The lifting assembly 9 comprises a lifting pushing hydraulic cylinder 93, the lifting pushing hydraulic cylinder 93 is fixedly arranged in the built-in groove 10, an installation protection frame 91 is fixedly arranged at one end of an output shaft of the lifting pushing hydraulic cylinder 93 through a hydraulic rod, a connecting pin shaft 92 is fixedly arranged at the inner side of the installation protection frame 91, the connecting pin shaft 92 penetrates through a positioning hole formed in the feed box 1, a side box cover 6 is fixedly arranged at one end of the feed box 1, and a discharge hole 7 is formed in the outer wall of one side of the side box cover 6.

The specific implementation mode is as follows: when the injection molding materials are fed, the driving motor 2 is directly started, the driving motor 2 can drive the driving screw 15 to rotate, firstly, the driving screw 15 can drive the feeding accessory 14 to move in the material box 1, the feeding accessory 14 can effectively push the injection molding materials to the side, the driving screw 15 can drive the meshing worm wheel 16 to rotate, the meshing worm wheel 16 can drive the transmission worm 121 of the auxiliary feeding assembly 12 to rotate at a low speed when rotating, the mounting shaft 123 can synchronously rotate, the mounting shaft 123 can drive the plurality of feeding blades 122 on the mounting shaft to rotate, the rotating feeding blades 122 can push the feeding accessory 14 to one side of the injection molding materials nearby and stir, finally, the injection molding materials are led out through the discharging hole 7, after the pushing is finished, the feeding accessory 14 is controlled to reset, at the moment, the transmission worm 121 and the feeding blades 122 are reversed, the residual materials which are not just sent out can be reintroduced into the material box 1, and the next working flow is waited for guiding out, so that the stable feeding of the injection molding materials is realized.

Through this design, can carry out supplementary ejection of compact action to the injection molding material unloading in-process, improve the unloading smoothness and the efficiency of injection molding material greatly to effectively avoid some curdless or piling up the condition emergence that blocks up of unloading that the injection molding material of solidification led to, need not often to maintain equipment, improved the practical application effect of whole equipment greatly.

The scraping assembly 141 comprises an inner installation shell 1414, a thermal expansion strip 1413 is arranged in the inner installation shell 1414, a scraping plate 1411 is arranged on the top surface of the thermal expansion strip 1413, one end of the scraping plate 1411 is in sliding connection with the inner wall of the inner installation shell 1414, a connecting spring 1412 is fixedly arranged on the bottom surface of the scraping plate 1411, and the bottom end of the connecting spring 1412 is fixedly connected with the inner wall of the bottom surface of the inner installation shell 1414.

The specific implementation mode is as follows: in the feeding process of injection molding materials, the electric heating tube is started to ensure the temperature of the injection molding materials because large-area solidification of the injection molding materials is required to be avoided, the temperature can be conducted to the scraping assembly 141 at the moment, the thermal expansion strip 1413 in the scraping assembly 141 senses the temperature and expands in volume, the thermal expansion strip 1413 can push the scraping plates 1411 upwards, the scraping plates 1411 are in closer contact with the inner wall of the material box 1, at the moment, along with the movement of the feeding accessory 14, the scraping plates 1411 can effectively scrape the inner wall of the material box 1, the residual injection molding materials on the inner wall of the material box 1 are scraped, the residual materials are prevented from being hung on the wall, the effective utilization of resources can be effectively ensured, the resource waste is avoided, when equipment is stopped, the scraping plates 1411 can be automatically stored, fine gaps are generated between the feeding accessory 14 and the inner wall of the material box 1, and water liquid can flow in the device in all directions when the equipment is subjected to internal circulation cleaning, and the cleaning effect is improved.

The outside of slide hole 144 is provided with on the surface of delivery sheet 143 and stirs material subassembly 13, stirs the stable stirring that material subassembly 13 is used for the notes plastics, stir material subassembly 13 and include installation barrel casing 133, installation barrel casing 133 fixed mounting is in the outside of slide hole 144, the inside rotation of installation barrel casing 133 is installed screw rotary drum 132, fixed mounting has a plurality of put to one side on screw rotary drum 132's the surface and stirs material blade 131, threaded rod 11 and screw threaded connection that screw rotary drum 132's inside set up.

The specific implementation mode is as follows: in the motion process of the feeding accessory 14, the stirring assembly 13 can be synchronously driven to move, at this time, the threaded rod 11 and the stirring assembly 13 can relatively displace, and due to the threaded connection relationship between the threaded rod 11 and the threaded rotary drum 132, the threaded rotary drum 132 and the plurality of inclined stirring blades 131 can synchronously rotate, and the plurality of inclined stirring blades 131 can realize stable stirring treatment on the injection molding material, so that the fluidity of the injection molding material is further improved.

Through this design, can realize the in-process of injection molding material unloading, carry out synchronous stirring processing to the injection molding material, improve the mobility of injection molding material, avoid the injection molding material to take place circumstances such as caking, continuously guarantee the actual unloading effect and the efficiency of whole equipment.

Working principle: when the injection molding materials are fed, the driving motor 2 is directly started, the driving motor 2 can drive the driving screw 15 to rotate, firstly, the driving screw 15 can drive the feeding accessory 14 to move in the material box 1, the feeding accessory 14 can effectively push the injection molding materials to the side, the driving screw 15 can drive the meshing worm wheel 16 to rotate, the meshing worm wheel 16 can drive the transmission worm 121 of the auxiliary feeding assembly 12 to rotate at a low speed when rotating, the mounting shaft 123 can synchronously rotate, the mounting shaft 123 can drive the plurality of feeding blades 122 on the mounting shaft to rotate, the rotating feeding blades 122 can push the feeding accessory 14 to one side of the injection molding materials nearby and stir, finally, the injection molding materials are led out through the discharging hole 7, after the pushing is finished, the feeding accessory 14 is controlled to reset, at the moment, the transmission worm 121 and the feeding blades 122 are reversed, the residual materials which are not just sent out can be reintroduced into the material box 1, and the next working flow is waited for guiding out, so that the stable feeding of the injection molding materials is realized; in the feeding process of injection molding materials, the electric heating tube is started to ensure the temperature of the injection molding materials because large-area solidification of the injection molding materials is required to be avoided, the temperature is conducted to the scraping assembly 141 at the moment, the thermal expansion strips 1413 in the scraping assembly 141 sense the temperature and expand the volume, the thermal expansion strips 1413 can push the scraping plates 1411 upwards to enable the scraping plates 1411 to be in closer contact with the inner wall of the material box 1, the scraping plates 1411 can effectively scrape the inner wall of the material box 1 along with the movement of the feeding accessory 14, the residual injection molding materials on the inner wall of the material box 1 are scraped, the residual materials are prevented from hanging, the effective utilization of resources can be effectively ensured, the waste of resources is avoided, the scraping plates 1411 can be automatically stored when equipment is stopped, at this time, the feeding accessory 14 can generate a fine gap with the inner wall of the material box 1, so that when the device is cleaned in an internal circulation manner, water can flow in the device in an omnibearing manner, the cleaning effect is improved, the stirring assembly 13 can be synchronously driven to move in the moving process of the feeding accessory 14, at this time, the threaded rod 11 and the stirring assembly 13 can relatively displace, the threaded rod 11 and the threaded rotary drum 132 can synchronously rotate with the inclined stirring blades 131 due to the threaded connection relationship between the threaded rod 11 and the threaded rotary drum 132, and the inclined stirring blades 131 can stably stir the injection molding material, so that the fluidity of the injection molding material is further improved, and the overall height of the material box 1 can be changed through the lifting assembly 9 in the application process of the device, so that better operation is realized.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed within the scope of the present invention.

Claims (3)

1. An automatic plastic shell injection molding unloading device, comprising a body (5), two sides of the body (5) are rotatably mounted with movable wheels (4), the body (5) is provided with two built-in grooves (10) inside, and a push handle (3) is fixedly mounted on the outer wall of the other side of the body (5), characterized in that: a lifting assembly (9) is provided inside the two built-in grooves (10), a material box (1) is provided on the top of the two lifting assemblies (9), and the lifting assembly (9) is used for stably lifting the material box (1), a driving motor (2) is fixedly mounted on the outer wall of one side of the material box (1), a material inlet (17) is provided on the top surface of the material box (1), a driving screw (15) is fixedly mounted on one end of the output shaft of the driving motor (2), a plurality of threaded rods (11) are fixedly mounted on the inner wall of one side of the material box (1), and the material box (1) is provided with a plurality of threaded rods (11) on the inner wall of one side of the material box (1). ) is provided with an electric heating tube in the shell cavity, the external thread of the driving screw (15) is installed with a feeding accessory (14), the feeding accessory (14) is used for the stable pushing of the injection molding material, the rotation of the material box (1) is installed with an auxiliary material discharge component (12), the auxiliary material discharge component (12) is used for the auxiliary material discharge of the injection molding material, the feeding accessory (14) comprises a feeding plate (143), the inner side of the feeding plate (143) is provided with a mounting groove (142), the interior of the mounting groove (142) is provided with a plurality of scraper components (141), the interior of the feeding plate (143) is provided with a sliding hole (144) and a threaded hole (145), the driving screw (15) is threadedly connected to the threaded hole (145), the threaded rod (11) is slidably connected to the sliding hole (144), the scraper component (141) comprises an installation inner shell (1414), the A heat expansion strip (1413) is arranged inside the installation inner shell (1414), and a scraper plate (1411) is arranged on the top surface of the heat expansion strip (1413). One end of the scraper plate (1411) is slidably connected to the inner wall of the installation inner shell (1414). A connecting spring (1412) is fixedly installed on the bottom surface of the scraper plate (1411), and the bottom end of the connecting spring (1412) is fixedly connected to the inner wall of the bottom surface of the installation inner shell (1414). A stirring assembly (13) is arranged on the outer surface of the feed plate (143) outside the sliding hole (144). The stirring assembly (13) is used for stable stirring of the injection molding material. The stirring assembly (13) comprises a mounting sleeve (133), and the mounting sleeve (133) is fixedly installed on the outer side of the sliding hole (144). A A threaded rotating drum (132) is provided with a plurality of oblique stirring blades (131) fixedly mounted on the outer surface of the threaded rotating drum (132); the threaded rod (11) is threadedly connected to a screw hole provided inside the threaded rotating drum (132); the auxiliary unloading assembly (12) comprises a mounting shaft (123); the mounting shaft (123) is rotatably mounted inside the material box (1); a transmission worm (121) is fixedly mounted at a middle position of the mounting shaft (123); unloading blades (122) are fixedly mounted on both sides of the transmission worm (121) and located outside the mounting shaft (123); a meshing worm disc (16) is fixedly mounted outside the driving screw (15); the transmission worm (121) and the meshing worm disc (16) are meshedly connected with each other; and there is no self-locking arrangement between the transmission worm (121) and the meshing worm disc (16). 2. An automatic plastic shell injection molding unloading device according to claim 1, characterized in that the lifting component (9) includes a lifting and pushing hydraulic cylinder (93), the lifting and pushing hydraulic cylinder (93) is fixedly installed inside the built-in groove (10), and one end of the output shaft of the lifting and pushing hydraulic cylinder (93) is fixedly installed with a mounting frame (91) through a hydraulic rod. 3. An automatic plastic shell injection molding unloading device according to claim 2, characterized in that a connecting pin (92) is fixedly installed on the inner side of the mounting frame (91), and the connecting pin (92) passes through a positioning hole provided inside the material box (1); a side box cover (6) is fixedly installed on one end of the material box (1), and a discharge port (7) is provided on one side outer wall of the side box cover (6).