CN114802944A

CN114802944A - Packing plant is used in raw materials production of environmental protection resin

Info

Publication number: CN114802944A
Application number: CN202210754480.5A
Authority: CN
Inventors: 唐钢梁
Original assignee: Jiangsu Qingmang Environmental Protection Technology Co ltd
Current assignee: Jiangsu Qingmang Environmental Protection Technology Co ltd
Priority date: 2022-06-30
Filing date: 2022-06-30
Publication date: 2022-07-29
Anticipated expiration: 2042-06-30
Also published as: CN114802944B

Abstract

The invention provides a packaging device for raw material production of environment-friendly resin, which comprises: the precise feeding device comprises a workbench, a blanking part, an injection part, a cover disassembling part and a precise feeding part, wherein the blanking part is arranged on the workbench, the cover disassembling part is arranged at the top end of the workbench, and the cover disassembling part is arranged at one side of the blanking part; the filling part is suitable for adding resin raw materials into the container on the workbench; the precise feeding part is fixed at the top end of the workbench, the filling part is communicated with the precise feeding part through a pipeline, and the precise feeding part is suitable for discharging refined resin raw materials into the filling part; after the container is placed on the workbench and is transmitted through the conveying device, the blanking part drives the container to be below the cover disassembling part; according to the invention, the screening and blanking are realized through the arrangement of the upper screening component and the lower screening component, and the repeated grinding and crushing effects can be realized through the arrangement of the reprocessing component, so that the resin material treatment effect is effectively enhanced.

Description

Packing plant is used in raw materials production of environmental protection resin

Technical Field

The invention relates to the technical field of packaging devices, in particular to a packaging device for raw material production of environment-friendly resin.

Background

With the continuous progress and development of scientific technology, the material processing and the produced products are widely applied to production and daily life, wherein the waste of a large amount of resin products can cause environmental pollution, so the waste resin materials can be crushed and ground into small particles to be put into production again, and the traditional packaging device for producing the raw materials of the resin needs a plurality of workers to operate simultaneously when in use, thereby causing low working efficiency.

Therefore, under certain circumstances, there is a need for an efficient and environmentally friendly packaging device for raw material production of resins.

Disclosure of Invention

The invention provides a packaging device for raw material production of environment-friendly resin, which solves the problems.

In order to achieve the above object, an embodiment of the present invention provides a packaging device for raw material production of an environment-friendly resin, including: the precision feeding device comprises a workbench, a blanking part, an injection part, a cover disassembling part and a precision feeding part, wherein the blanking part is arranged on the workbench, the cover disassembling part is arranged at the top end of the workbench, and the cover disassembling part is arranged on one side of the blanking part;

the filling part is fixed on one side of the cover detaching part, which is far away from the blanking part, and is suitable for adding resin raw materials into the container on the workbench;

the precise feeding part is fixed at the top end of the workbench, is arranged right above the filling part and is communicated with the precise feeding part through a pipeline, and the precise feeding part is suitable for refining resin raw materials and then discharging the refined resin raw materials into the filling part; wherein

After the container is placed on the workbench and is transmitted through the conveying device, the blanking part drives the container to be below the cover disassembling part;

the precision feeding part comprises: the device comprises a feeding frame, a bearing top frame, a convex ring, a servo motor and a gear disc, wherein the bearing top frame is fixed at the top end of the feeding frame, and the bottom end of the feeding frame is communicated with a filling part;

the convex ring is installed on the bearing top frame, a through hole concentric with the convex ring is formed in the center of the bearing top frame, a gear plate is installed at the output end of the servo motor through a rotating shaft, the gear plate is rotatably arranged on the bearing top frame, and the servo motor is fixed at the top end of the workbench;

the accurate material loading portion still includes: the device comprises an upper screening component, a lower screening component, an abrasive cavity and a reprocessing component, wherein the lower screening component is arranged on a bearing top frame, the lower screening component is rotatably clamped and embedded on a convex ring, the upper screening component is arranged in the lower screening component, the abrasive cavity is formed between the upper screening component and the lower screening component, the reprocessing component is uniformly fixed in the abrasive cavity, and the reprocessing component is fixed between the upper screening component and the lower screening component; wherein

When the servo motor drives the gear disc to rotate clockwise, the upper screening component can drive the reprocessing component to rotate in the upper screening component to finish grinding and crushing materials;

when the servo motor drives the gear disc to rotate anticlockwise, the upper screening assembly drives the lower screening assembly to rotate synchronously through the reprocessing assembly so as to finish blanking.

Further, the packaging device further comprises: the pressing cover part is arranged on the workbench, the pressing cover part is arranged on one side of the filling part, which is far away from the cover disassembling part, and the pressing cover part is suitable for assembling a top cover on a container filled with resin raw materials; wherein

The capping portion is adapted to fit the cap body to the resin material filled container when the resin material filled container is transferred to the capping portion by the transfer means at the top end of the table.

Further, the feeding part is fixed at the discharge end of the workbench, the feeding part is arranged on the other side of the capping part, and the feeding part is suitable for driving the container transported from the capping part to the outside of the workbench.

Further, the lid detaching portion includes: the feeding device comprises a driving assembly and a clamping arm, wherein the driving assembly is fixed on the workbench, the driving assembly is arranged between the filling part and the discharging part, and the driving assembly is suitable for driving the clamping arm to lift and rotate.

Furthermore, the clamping arms are fixed at the output end of the driving assembly, one group of driving assembly is correspondingly connected with two groups of clamping arms, and the two groups of clamping arms are arranged in a mirror image mode along the central line of the driving assembly; wherein

The clamping arm is driven by the driving component to lift or rotate.

Furthermore, tear lid open still includes clamp splice and screens board, the clamp splice is fixed the tight arm of clamp is kept away from drive assembly's one end, the screens board is fixed one side of clamp splice, one side of screens board is suitable for supporting the container top cap.

Furthermore, an arc-shaped groove is formed in the inner wall of the clamping plate, the two ends of the clamping plate are perpendicular to the horizontal plane of the workbench, and one side of the clamping plate is in an inward-concave arc shape.

Furthermore, anti-falling components are uniformly arranged on the concave surface of the clamping plate, the outer contour of each anti-falling component is arc-shaped, and the anti-falling components are reversely concave towards the rotation of the clamping arm; wherein

When the two sets of clamping plates prop against the side wall of the container top cover and rotate, the anti-falling assembly is suitable for preventing the container top cover from idling between the two sets of clamping plates.

Further, the anticreep subassembly includes: assembly groove and rubber strip, a plurality of the assembly groove is evenly seted up on the lateral wall of screens board depressed face, the rubber strip inlay card is in the assembly groove, the assembly groove with the sunken direction of rubber strip with the rotation direction of screens board is unanimous.

Compared with the prior art, the embodiment of the invention has the following beneficial effects: through the setting of going up sieve material subassembly and sieve material subassembly down realize sieve material blanking, through the setting of reprocessing the subassembly, can realize grinding repeatedly, broken effect, effectual reinforcing resin material treatment effect.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of a preferred embodiment of a packaging apparatus for raw material production of an environmentally friendly resin according to the present invention;

FIG. 2 is a sectional view of a preferred embodiment of the packaging apparatus for raw material production of an environmental friendly resin according to the present invention;

FIG. 3 is a perspective view of a preferred embodiment of the uncapping portion of the present invention;

FIG. 4 is a perspective view of a preferred embodiment of the detent plate of the present invention;

FIG. 5 is a perspective cross-sectional view of a preferred embodiment of the precision loading section of the present invention;

FIG. 6 is a cross-sectional view of a preferred embodiment of the second screen hopper of the present invention;

figure 7 is a cross-sectional view of a preferred embodiment of the rework assembly of the invention.

In the drawings

1. A work table; 2. a filling part; 3. a blanking part; 4. disassembling the cover part; 5. a precise feeding part; 6. a capping part; 7. a feeding part;

41. a drive assembly; 42. a clamping block; 43. a clamping plate; 44. an arc-shaped slot; 45. an anti-drop component; 46. a clamp arm;

451. assembling a groove; 452. a rubber strip;

51. a feeding frame; 52. a servo motor; 53. a gear plate; 54. an upper screening component; 55. a material feeding component; 56. supporting a top frame; 57. a convex ring; 58. an abrasive chamber; 59. reprocessing the component;

541. a first screen hopper; 542. a gear ring; 543. cutting holes; 544. a first slide surface; 545. a first particulate surface;

561. a second screen hopper; 562. a second sliding surface; 563. a support table; 564. a limit rail; 565. a second particulate surface; 566. screening holes;

591. grinding blocks; 592. a crushing knife; 593. a sloping table; 594. a tough platform; 595. a card and a slot.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1 to 7, the present invention provides a packaging device for raw material production of an environment-friendly resin, comprising: the automatic feeding device comprises a workbench 1, a blanking part 3, a filling part 2, a cover disassembling part 4 and a precise feeding part 5, wherein the blanking part 3 is installed on the workbench 1, the blanking part 3 mainly serves to take out a container transported to a specified position and place the container on the workbench 1 again, the cover disassembling part 4 mainly serves to disassemble a top cover of the container after the blanking part 3 is placed, the filling part 2 mainly serves to fill an empty container with a material with proper particles, and the precise feeding part 5 mainly serves to provide the filling part 2 with a resin material after fine treatment; the capping part 6 mainly serves to assemble the container filled with the material to the top cover, and the feeding part 7 mainly serves to feed the closed container out of the work table 1. The above components are described in detail as follows.

Working table

The workbench 1 is integrally placed on a horizontal table, specifically, the workbench 1 is integrally box-shaped at the bottom and is provided with a frame-type supporting body at the top, the workbench 1 mainly serves to provide an operating platform and is used for fixing components formed by the packaging device for raw material production of the environment-friendly resin shown in the embodiment, further, a transportation component is arranged on the workbench 1 and is mainly used for transporting empty containers to the workbench 1 to sequentially pass through the blanking part 3, the cover disassembling part 4, the filling part 2, the cover pressing part 6 and the feeding part 7, and the empty containers are conveyed to the outside of the workbench 1 after being filled with the empty containers.

Blanking part

The blanking part 3 is fixed on the workbench 1, the blanking part 3 is arranged on one side of the workbench 1 close to the feeding of the conveying assembly, and the blanking part 3 is mainly used for taking out the container transported to the designated position and placing the container to the designated position on the workbench 1 again.

Filling part

The filling part 2 is fixed on the workbench 1, specifically, the filling part 2 is arranged on one side of the blanking part 3, the filling part 2 mainly serves to fill an empty container with a material with proper particles, the filling part 2 is arranged under the precise feeding part 5, and the precise feeding part 5 is communicated with the filling part 2 through a feeding pipeline.

Gland part

The packaging device further comprises: the pressing cover part 6 is arranged on the workbench 1, the pressing cover part 6 is arranged on one side of the filling part 2 far away from the cover disassembling part 4, and the pressing cover part 6 is suitable for assembling a top cover on a container filled with resin raw materials; wherein the cap pressing portion 6 is adapted to fit the cap body to the resin material filled container when the resin material filled container is transferred to the cap pressing portion 6 by the transfer means at the top end of the table 1.

Feeding part

The feeding part 7 is fixed at the discharge end of the workbench 1, the feeding part 7 is arranged at the other side of the gland part 6, and the feeding part 7 is suitable for driving the container transported from the position of the gland part 6 to the outside of the workbench 1.

Tear lid portion open

The cover disassembling part 4 is arranged at the top end of the workbench 1, and the cover disassembling part 4 is arranged at one side of the blanking part 3; the filling part 2 is fixed on one side of the cover disassembling part 4 far away from the blanking part 3, and the filling part 2 is suitable for adding resin raw materials into a container on the workbench 1;

the following describes the constitution of the lid removing section 4 in detail, and the lid removing section 4 includes: a driving assembly 41 and a clamping arm 46, wherein the driving assembly 41 is fixed on the workbench 1, the driving assembly 41 is arranged between the filling part 2 and the blanking part 3, and the driving assembly 41 is suitable for driving the clamping arm 46 to lift and rotate; the clamping arms 46 are fixed at the output end of the driving assembly 41, one group of the driving assembly 41 is correspondingly connected with two groups of the clamping arms 46, and the two groups of the clamping arms 46 are arranged in a mirror image manner along the center line of the driving assembly 41; specifically, the driving assembly 41 can drive the two sets of clamping arms 46 to perform a synchronous rotating or lifting effect, that is, when an empty container is placed under the lid removing portion 4, the driving assembly 41 can drive the clamping arms 46 to move downwards to a proper position, and then after the container is clamped, the driving assembly 41 drives the clamping arms 46 to rotate to achieve the lid removing effect, wherein the clamping arms 46 are driven by the driving assembly 41 to lift or rotate; the cover disassembling part 4 further comprises a clamping block 42 and a clamping plate 43, the clamping block 42 is fixed at one end of the clamping arm 46 far away from the driving component 41, the clamping plate 43 is fixed at one side of the clamping block 42, and one side of the clamping plate 43 is suitable for abutting against the top cover of the container; arc 44 has been seted up to the inner wall of screens board 43, in order to make the laminating of screens board 43 one side can be better with the lid lateral wall, the both ends of screens board 43 are the perpendicular to the horizontal plane of workstation 1, one side of screens board 43 is inside sunken arc, and under drive assembly 41's drive, two screens boards 43 can the centre gripping at the lid surface, realize dismantling the effect through rotating.

Anti-falling assembly

In order to enhance the effect of removing the empty container top cover body, the retaining components 45 are uniformly arranged on the concave surface of the clamping plate 43, the outer contour of the retaining components 45 is arc-shaped, and the retaining components 45 are reversely concave towards the rotation of the clamping arm 46; when the two sets of the blocking plates 43 abut against the side wall of the container top cover and rotate, the anti-falling assembly 45 is suitable for preventing the container top cover from idling between the two sets of the blocking plates 43; the anti-slip-off assembly 45 includes: the assembling grooves 451 and the rubber strips 452 are arranged, the assembling grooves 451 are uniformly formed in the side wall of the concave surface of the clamping plate 43, the rubber strips 452 are clamped in the assembling grooves 451, and the concave directions of the assembling grooves 451 and the rubber strips 452 are consistent with the rotating direction of the clamping plate 43; the main purpose of this design is to increase the torque between the cover and the locking plate 43, so as to prevent the container from idling when the cover is clamped by the locking plate 43.

Precise feeding part

The precise feeding part 5 is fixed at the top end of the workbench 1, the precise feeding part 5 is arranged right above the filling part 2, the filling part 2 is communicated with the precise feeding part 5 through a pipeline, and the precise feeding part 5 is suitable for refining resin raw materials and then discharging the refined resin raw materials into the filling part 2; wherein, after the container is arranged on the workbench 1 and is transmitted by the transporting device, the blanking part 3 drives the container to the lower part of the cover disassembling part 4.

The precision feeding section 5 includes: the device comprises a feeding frame 51, a bearing top frame 56, a convex ring 57, a servo motor 52 and a gear disc 53, wherein the bearing top frame 56 is fixed at the top end of the feeding frame 51, and the filling parts 2 of the feeding frame 51 are communicated with each other; specifically, the top end feeding direction of the filling part 2 is right below the bottom end opening of the feeding frame 51, the main purpose of the design is to enable materials cut off from the segmentation part to be transported from one end to the other end through the transmission part until the materials fall into the feeding frame 51, the outer contour of the supporting top frame 56 is rectangular, the bottom of the supporting top frame 56 is fixedly connected with the top end of the workbench 1, the convex ring 57 is installed on the supporting top frame 56, a through hole concentric with the convex ring 57 is formed in the center of the supporting top frame 56, the main purpose of forming the through hole in the center of the convex ring 57 is to facilitate assembling the upper screening component 54 and the lower screening component 55, meanwhile, the convex ring 57 can effectively keep the rotating smoothness of the upper screening component 54 and the lower screening component 55, and to enable the rotating state of the upper screening component 54 and the lower screening component 55 to be changed, the output end of the servo motor 52 is provided with a gear disc 53 through a rotating shaft, the gear plate 53 is rotatably arranged on the supporting top frame 56, and the servo motor 52 is fixed on the top of the workbench 1.

In order to enhance the processing effect on the resin raw material entering the precise feeding part 5 for the first time, the precise feeding part 5 further comprises: an upper screen assembly 54, a lower screen assembly 55, an abrasive chamber 58, and a rework assembly 59, the lower screen assembly 55 being disposed on the support top frame 56, the lower screening component 55 is rotatably clamped and embedded on the convex ring 57, specifically, the lower screening component 55 is sleeved on the convex ring 57 to realize the supporting function of the supporting top frame 56 on the whole, meanwhile, the lower screen assembly 55 can rotate along the arrangement direction of the convex ring 57, the upper screen assembly 54 is arranged in the lower screen assembly 55, the upper screen assembly 54 and the lower screen assembly 55 form the abrasive chamber 58 therebetween, the reprocessing components 59 are uniformly fixed in the grinding material cavity 58, the reprocessing components 59 can grind small-volume materials and crush large-volume materials in the rotating process of the upper screening component 54 which is equivalent to the lower screening component 55, the rework assembly 59 is secured between the upper screen assembly 54 and the lower screen assembly 55; when the servo motor 52 drives the gear disc 53 to rotate clockwise, the upper screening assembly 54 can drive the reprocessing assembly 59 to rotate in the upper screening assembly 54 to complete grinding and crushing of the materials; it should be further noted that, when the servo motor 52 drives the gear disc 53 to rotate clockwise; after the material entering from the outside for the first time falls into the upper screening material assembly 54, the material capable of passing through the upper screening material assembly 54 and the lower screening material assembly 55 is directly discharged into the feeding frame 51, the material which cannot be directly discharged and has smaller volume can enter the grinding material cavity 58, the reprocessing assembly 59 grinds the material with smaller volume, simultaneously crushes the material with larger volume, and the crushed material with smaller volume is ground again, so that the better material processing effect is effectively realized, and when the servo motor 52 drives the gear disc 53 to rotate anticlockwise, the upper screening material assembly 54 drives the lower screening material assembly 55 to synchronously rotate through the reprocessing assembly 59 so as to finish blanking.

Lower screen material subassembly

The structure of the lower screen material assembly 55 is described in detail below, the lower screen material assembly 55 includes a second screen hopper 561, screen holes 566, a support table 563, and a limit rail 564, the second screen hopper 561 is a hollow hemispherical shape, the whole second screen hopper 561 is recessed in a direction away from the top opening of the upper frame 51, a concave surface of the second screen hopper 561 is a second particle surface 565, the main purpose of the design is to allow the second screen hopper 561 to form a chamber capable of accommodating the upper screen material assembly 54, meanwhile, an abrasive cavity 58 is formed between the upper screen material assembly 54 and the second screen hopper 561, after the material enters the abrasive cavity 58, the second particle surface 565 can contact and press the material, friction of the material in the dividing and crushing processes is effectively increased, the occurrence of a slip phenomenon when the material surface is stressed is avoided, and further, the processing efficiency is enhanced by the design of the second particle surface 565, the lug of the second sieve hopper 561 is a second sliding surface 562, and a plurality of sieve holes 566 are uniformly arranged on the second sieve hopper 561; a supporting table 563 is fixed at the top end of the second screening hopper 561, the supporting table 563 is attached to the top surface of the supporting top frame 56, the limiting rail 564 is arranged at the bottom of the supporting table 563, the limiting rail 564 and the supporting top frame 56 are arranged on the second screening hopper 561 for the purpose of relatively arranging the whole second screening hopper 561 in the loading frame 51 and stably supporting the loading assembly 54, the limiting rail 564 is concentrically arranged with the second screening hopper 561, and the limiting rail 564 is sleeved on the convex ring 57; when the upper screening assembly 54 rotates counterclockwise, the second screening hopper 561 is adapted to rotate synchronously with the upper screening assembly 54 by being sleeved on the convex ring 57 through the limiting rail 564.

Go up screen material subassembly

The upper screen assembly 54, which is described in detail below, constitutes a structure, and the upper screen assembly 54 includes: the first screening hopper 541, the gear ring 542 and the material cutting hole 543 are arranged in the second screening hopper 561 in a rotatable manner; the gear ring 542 is fixed at the top edge position of the first screening hopper 541, and the main purpose of the design is to enable the gear ring 542 to drive the first screening hopper 541 to rotate when the servo motor 52 drives the gear disc 53 to rotate, the bottom surface of the gear ring 542 is abutted against the top surface of the supporting table 563, the gear ring 542 is respectively arranged concentrically with the first screening hopper 541 and the second screening hopper 561, and the gear ring 542 is engaged with the gear disc 53; wherein when the servo motor 52 drives the gear disc 53 to rotate, the gear disc 53 rotates the first screening hopper 541 by engaging with the gear ring 542.

In order to realize the primary cutting of the large-volume materials and increase the material processing speed, the material cutting holes 543 are uniformly arranged on the first screening hopper 541, and the material cutting holes 543 are suitable for cutting the materials; specifically, in the relative rotation process of the first screen hopper 541 and the second screen hopper 561, since the abrasive chamber 58 is arranged between the second screen hopper 561 and the first screen hopper 541, when the material is clamped between the material cutting hole 543 and the abrasive chamber 58, the material is clamped by the torsion force generated when the first screen hopper 541 rotates, so that the material is cut off to have a smaller volume; the overlapping area of the material cutting holes 543 and the screen holes 566 is changed by the relative rotation of the first screen hopper 541 and the second screen hopper 561, that is, in the process of the continuous rotation of the first screen hopper 541, the material cutting holes 543 and the screen holes 566 are completely overlapped, in this process, the real aperture of the blanking is smaller than the aperture of the material cutting holes 543 and the screen holes 566 when the material cutting holes 543 and the screen holes 566 are completely overlapped, when the gear ring 542 drives the first screen hopper 541 to rotate counterclockwise, the material cutting holes 543 and the screen holes 566 are completely overlapped, and when the gear ring 542 drives the first screen hopper 541 to rotate clockwise, the overlapping area of the material cutting holes 543 and the screen holes 566 is continuously changed along with the rotation; the concave surface of the first screen hopper 541 is a first sliding surface 544, the lug of the first screen hopper 541 is a first particle surface 545, the first particle surface 545 and a second particle surface 565 are matched with each other, so that the material to be classified and crushed can be separated efficiently, and an abrasive cavity 58 is formed between the first particle surface 545 and the second particle surface 565.

Reworked component

The reworking assembly 59 as described in detail below is composed of a grinding block 591 and a crushing blade 592, wherein the grinding block 591 is uniformly installed on the concave surface of the second screen hopper 561, the grinding block 591 is in an arc design concentric with the first screen hopper 541, and one side of the grinding block 591 is an inclined surface; the inclined surface on one side of the grinding block 591 is suitable for being attached to the inclined surface at the bottom of the crushing cutter 592, when the crushing cutter 592 rotates, the inclined surface can be continuously and frictionally extruded with different grinding blocks 591, when no material exists between the crushing cutter 592 and the grinding block 591, the effect of rubbing the crushing cutter 592 to enable the surface to be sharper is achieved, and when the material exists between the crushing cutter 592 and the grinding block 591, the crushing cutter 592 and the grinding block 591 are mutually extruded and rubbed to achieve the effect of separate grinding and crushing; the crushing blades 592 are secured to the convex surface of the first screen hopper 541, two sets of the abrasive blocks 591 correspond to the one set of the crushing blades 592, and the two sets of the abrasive blocks 591 are arranged in mirror image along the centerline of the crushing blades 592; the mirror image arrangement of the grinding block 591 can ensure that the materials on two sides around the crushing blade 592 can be separated and crushed, and the materials on one side of the moving direction of the crushing blade 592 can be driven to the two sides which can be contacted with the grinding block 591 during the moving process, wherein when the first screen hopper 541 rotates in the second screen hopper 561, the crushing blade 592 slides between the two sets of the grinding block 591;

in order to adapt to the situation that the volume of the materials to be processed is small and the materials do not need to be processed again, the material cutting holes 543 and the sieve holes 566 need to be completely overlapped, the reprocessing assembly 59 further comprises inclined tables 593, tough tables 594 and cards and grooves 595, a plurality of the inclined tables 593 are arranged at the bottom edge of the crushing cutter 592, a certain gap is formed between every two adjacent inclined tables 593, one tough table 594 is fixed at the top end of one inclined table 593, and the cards and the grooves 595 are arranged on the top wall of the grinding block 591; wherein when the sloping table 593 and the tough table 594 rotate clockwise with the first screen hopper 541, the sloping surface of the grinding block 591 and the sloping table 593 and the tough table 594 press against each other, and when the sloping table 593 and the tough table 594 rotate counterclockwise with the first screen hopper 541, the sloping table 593 and the tough table 594 are caught in the card and groove 595 to drive the second screen hopper 561 to rotate.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a packing plant is used in raw materials production of environmental protection resin which characterized in that includes:

the automatic feeding device comprises a workbench (1), a blanking part (3), a filling part (2), a cover detaching part (4) and a precise feeding part (5), wherein the blanking part (3) is installed on the workbench (1), the cover detaching part (4) is arranged at the top end of the workbench (1), and the cover detaching part (4) is arranged on one side of the blanking part (3);

the filling part (2) is fixed on one side of the cover disassembling part (4) far away from the blanking part (3), and the filling part (2) is suitable for adding resin raw materials into a container on the workbench (1);

the precise feeding part (5) is fixed at the top end of the workbench (1), the precise feeding part (5) is arranged right above the filling part (2), the filling part (2) is communicated with the precise feeding part (5) through a pipeline, and the precise feeding part (5) is suitable for refining resin raw materials and then discharging the refined resin raw materials into the filling part (2); wherein

After the container is placed on the workbench (1) and is transmitted through the conveying device, the blanking part (3) drives the container to be below the cover disassembling part (4);

the precision feeding part (5) comprises: the automatic feeding device comprises a feeding frame (51), a bearing top frame (56), a convex ring (57), a servo motor (52) and a gear disc (53), wherein the bearing top frame (56) is fixed at the top end of the feeding frame (51), and the bottom end of the feeding frame (51) is communicated with a filling part (2);

the convex ring (57) is mounted on the bearing top frame (56), a through hole concentric with the convex ring (57) is formed in the center of the bearing top frame (56), a gear disc (53) is mounted at the output end of the servo motor (52) through a rotating shaft, the gear disc (53) is rotatably arranged on the bearing top frame (56), and the servo motor (52) is fixed at the top end of the workbench (1);

the precision feeding part (5) further comprises: an upper screening component (54), a lower screening component (55), an abrasive cavity (58) and a reprocessing component (59), wherein the lower screening component (55) is arranged on the supporting top frame (56), the lower screening component (55) is rotatably clamped on the convex ring (57), the upper screening component (54) is arranged in the lower screening component (55), the abrasive cavity (58) is formed between the upper screening component (54) and the lower screening component (55), the reprocessing components (59) are uniformly fixed in the abrasive cavity (58), and the reprocessing components (59) are fixed between the upper screening component (54) and the lower screening component (55); wherein

When the servo motor (52) drives the gear disc (53) to rotate clockwise, the upper screening component (54) can drive the reprocessing component (59) to rotate in the upper screening component (54) to finish component grinding and crushing;

when the servo motor (52) drives the gear disc (53) to rotate anticlockwise, the upper screening component (54) drives the lower screening component (55) to synchronously rotate through the reprocessing component (59) so as to finish blanking.

2. The packaging apparatus for raw material production of an environmental friendly resin as set forth in claim 1,

the packaging device further comprises: the pressing cover part (6) is installed on the workbench (1), the pressing cover part (6) is arranged on one side, away from the cover disassembling part (4), of the filling part (2), and the pressing cover part (6) is suitable for assembling a top cover on a container filled with resin raw materials; wherein

The capping part (6) is adapted to fit a cap body to the container filled with the resin material when the container filled with the resin material is sent to the capping part (6) by a transportation means at the top end of the table (1).

3. The packaging apparatus for raw material production of an environmental friendly resin as set forth in claim 2,

the feeding part (7) is fixed at the discharge end of the workbench (1), the feeding part (7) is arranged at the other side of the gland part (6), and the feeding part (7) is suitable for driving a container transported from the position of the gland part (6) to the outside of the workbench (1).

4. The packaging apparatus for raw material production of an environmental friendly resin as set forth in claim 3,

the lid removal portion (4) includes: drive assembly (41) and clamping arm (46), drive assembly (41) are fixed on workstation (1), drive assembly (41) set up filling portion (2) with between unloading portion (3), drive assembly (41) are suitable for the drive clamping arm (46) go up and down and rotate.

5. The packaging apparatus for raw material production of an environmental friendly resin as set forth in claim 4,

the clamping arms (46) are fixed at the output end of the driving assembly (41), one group of driving assembly (41) is correspondingly connected with two groups of clamping arms (46), and the two groups of clamping arms (46) are arranged in a mirror image mode along the central line of the driving assembly (41); wherein

The clamping arm (46) is driven by the driving assembly (41) to lift or rotate.

6. The packaging apparatus for raw material production of an environmental friendly resin as set forth in claim 5,

tear lid portion (4) open still include clamp splice (42) and screens board (43), clamp splice (42) are fixed press from both sides tight arm (46) and keep away from the one end of drive assembly (41), screens board (43) are fixed one side of clamp splice (42), one side of screens board (43) is suitable for and supports the container top cap.

7. The packaging apparatus for raw material production of an environmental friendly resin as set forth in claim 6,

arc-shaped groove (44) have been seted up to the inner wall of screens board (43), the both ends of screens board (43) are the perpendicular to the horizontal plane of workstation (1), one side of screens board (43) is inside sunken arc.

8. The packaging apparatus for raw material production of an environmental friendly resin as set forth in claim 7,

anti-falling components (45) are uniformly arranged on the concave surface of the clamping plate (43), the outer contour of each anti-falling component (45) is arc-shaped, and each anti-falling component (45) is reversely concave towards the rotation of the clamping arm (46); wherein

When the two sets of the blocking plates (43) prop against the side wall of the container top cover and rotate, the anti-falling component (45) is suitable for preventing the container top cover from idling between the two sets of the blocking plates (43).

9. The packaging apparatus for raw material production of an environmental friendly resin as set forth in claim 8,

the anti-drop assembly (45) comprises: a plurality of assembly groove (451) and rubber strip (452), a plurality of assembly groove (451) are evenly seted up on the lateral wall of the sunken face of screens board (43), rubber strip (452) inlay card is in assembly groove (451), assembly groove (451) with the sunken direction of rubber strip (452) with the rotation direction of screens board (43) is unanimous.