CN113275240B - Plastic auxiliary agent screening mixes all-in-one - Google Patents

Abstract

The invention relates to the technical field of plastic additive production equipment, in particular to a plastic additive screening and mixing integrated machine, which comprises a mixing box, a screening box, a supporting seat for fixing the mixing box and the screening box, and further comprises: the screening assembly is connected with the screening box; the screening assembly comprises a screening assembly and a control assembly, the screening assembly comprises a first screening piece and a second screening piece, and the control assembly comprises a pressing block and a control piece; the mixing component is respectively connected with the mixing box and the screening box; the plastic auxiliary agent screening and mixing all-in-one machine is novel in structure, ensures the integrity of the device, has good screening and mixing effects, improves the working efficiency, saves the cost and manpower, and provides convenience for workers.

Description

Plastic auxiliary agent screening mixes all-in-one

Technical Field

The invention relates to the technical field of plastic auxiliary agent production equipment, in particular to a plastic auxiliary agent screening and mixing integrated machine.

Background

Plastics are an essential material in our lives, and in the process of preparing plastics, in order to help the plastics to be modified and improve the use effect of the plastics, a plurality of plastic additives are often used, wherein the plastic additives are also called plastic additives and are compounds which are necessary to be added for improving the processability of polymers (synthetic resins) or improving the performance of the resins when the polymers (synthetic resins) are subjected to molding processing.

The screening and mixing of the existing plastic auxiliaries are mostly carried out separately, so that the production cost is improved, the working efficiency is reduced, the labor is wasted, and great inconvenience is brought to the operation of related personnel.

Disclosure of Invention

The invention aims to provide a plastic auxiliary agent screening and mixing all-in-one machine, which is used for solving the problems in the background technology.

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

the utility model provides a mixed all-in-one of plastic auxiliary agent screening, includes mixing box and screening case and is used for the supporting seat of fixed mixing box and screening case, still includes:

the screening assembly is connected with the screening box;

the screening assembly comprises a screening assembly and a control assembly, the screening assembly and the control assembly are installed in a matched mode, the screening assembly comprises a first screening piece and a second screening piece, the control assembly comprises a pressing block and a control piece, and the plastic auxiliaries in the first screening piece and the second screening piece can be subjected to vibration screening in a mode that the pressing block and the control piece are driven by the screening assembly to be in contact at intervals; and

the mixing component is respectively connected with the mixing box and the screening box;

the mixing assembly comprises a driving assembly and a stirring assembly, the driving assembly is connected with the stirring assembly, and the driving assembly is used for driving the stirring assembly to fully stir and mix a plurality of groups of plastic auxiliaries after screening is finished.

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

through the arranged screening box, various plastic additives can be added on the second screening part in the screening box, and the second screening part can be driven to shake through the operation of the arranged screening component, so that the plastic additives in the second screening part can be screened, so that the qualified plastic additives can fall into the first screening part for further screening operation, and the screening component and the control component work in a matching way, when the pressing block and the control part are contacted and separated at intervals, the shaking amplitude of the first screening part and the second screening part can be increased at intervals, so that the screening effect on the plastic additives can be improved, when the plastic additives are screened in the screening box, the plastic additives can enter the mixing box, and the stirring component is driven to operate through the arranged driving component, can carry out abundant mixed stirring to the plastics auxiliary agent after the multiple screening, after the misce bene, can discharge and go in next process, install the top at the mixing box through the screening case, can make the plastics auxiliary agent after the screening under the effect of gravity, enter into the mixing box fast and stir, thereby the wholeness of device has been guaranteed, and the effect of screening and mixing is better, and the efficiency of work has been improved, the cost and manpower are practiced thrift, for the staff provides convenience, be worth promoting.

Drawings

Fig. 1 is a schematic overall sectional front view structure in the embodiment of the present invention.

FIG. 2 is a side cross-sectional structural schematic view of a portion of a screening box in an embodiment of the present invention.

Fig. 3 is an enlarged schematic perspective sectional view of a part of the first screening element in the embodiment of the present invention.

Fig. 4 is a side view of a spacer according to an embodiment of the present invention.

FIG. 5 is an enlarged schematic top view of a portion of the stirring member according to the embodiment of the present invention.

In the figure: 1-a supporting base, 2-a mixing box, 3-a first stirring rod, 4-a disturbing part, 5-a stirring shaft, 6-a second stirring plate, 7-a discharging port, 8-a stirring part, 9-a driving gear, 10-a driven gear, 11-a transmission frame, 12-a driving pulley, 13-a transmission belt, 14-a driven pulley, 15-a first power part, 16-a communicating pipe, 17-a screening box, 18-a vibrator, 19-a guide plate, 20-a first base, 21-a first spring, 22-a first screening part, 23-a first screen, 24-a mixing plate, 25-a through hole, 26-a second base, 27-a second spring, 28-a second screen, 29-a second screening part, 30-a feeding pipe, 31-a flow dividing tube, 32-a separating plate, 33-a feed inlet, 34-a ventilation head, 35-a transmission disc, 36-an eccentric wheel, 37-a first supporting rod, 38-a first transmission rod, 39-a movable rod, 40-a reciprocating member, 41-a rotating rod, 42-a second supporting rod, 43-a second transmission rod, 44-a lifting rod, 45-a pressing block, 46-a control member, 47-a guide groove, 48-a separating plate, 49-a ventilation hole, 50-a first notch, 51-a second notch, 52-a second power member, 53-a first transmission member, 54-a rotating shaft, 55-a first conical tooth, 56-a second conical tooth, 57-a rotating shaft, 58-a bulge member, 59-a push rod, 60-a push rod, 61-a reset member, 62-second transmission member, 63-guide member, 64-first support member, 65-third transmission member, 66-second support member, 67-feed member, 68-split member, 69-shaking member, 70-screen assembly, 71-control assembly, 72-drive assembly, 73-stirring assembly.

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.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

Referring to fig. 1, an embodiment of the present invention provides a plastic auxiliary agent screening and mixing all-in-one machine, including a mixing box 2, a screening box 17, and a supporting seat 1 for fixing the mixing box 2 and the screening box 17, further including:

a screening assembly connected to the screening box 17;

the screening assembly comprises a screening assembly 70 and a control assembly 71, the screening assembly 70 and the control assembly 71 are installed in a matched mode, the screening assembly 70 comprises a first screening part 22 and a second screening part 29, the control assembly 71 comprises a pressing block 45 and a control part 46, and the plastic auxiliaries in the first screening part 22 and the second screening part 29 can be subjected to vibration screening in a mode that the pressing block 45 and the control part 46 are driven by the screening assembly 70 to be in contact with each other at intervals; and

a mixing assembly connected to the mixing tank 2 and the screening tank 17, respectively;

the mixing component comprises a driving component 72 and a stirring component 73, the driving component 72 is connected with the stirring component 73, and the driving component 72 is used for driving the stirring component 73 to fully stir and mix multiple groups of plastic auxiliaries after screening is finished.

When a plurality of plastic additives are required to be screened and mixed, firstly, the whole device can be stably arranged in a working area through the arranged supporting seat 1 to avoid shaking or toppling of the equipment during working, then, the plurality of plastic additives can be added on the second screening part 29 in the screening box 17 through the arranged screening box 17, as a plurality of compartments are arranged in the second screening part 29, the plurality of plastic additives can be separately screened, and the second screening part 29 can be driven to shake through the arranged screening component 70, so that the plastic additives in the second screening part 29 can be screened, qualified plastic additives can fall into the first screening part 22 to facilitate further screening work, and the screening component 70 and the control component 71 work cooperatively, when the pressing blocks 45 and the control part 46 are contacted and separated at intervals, can improve the shake range of first screening 22 and second screening 29 at an interval, thereby can improve the screening effect to the plastics auxiliary agent, after the plastics auxiliary agent is sieved in screening case 17, can enter into mixing box 2, and drive stirring subassembly 73 work through the drive assembly 72 that sets up, can carry out abundant mixing stirring to the plastics auxiliary agent after the multiple screening, after the misce bene, can discharge to go in the next process, install the top at mixing box 2 through screening case 17, can make the plastics auxiliary agent after the screening under the effect of gravity, stir in entering into mixing box 2 fast, thereby the wholeness of device has been guaranteed, and the effect of screening and mixing is better, and the efficiency of work has been improved, the cost and manpower are saved, facilitate for the staff, and is worth promoting.

In one embodiment of the present invention, referring to FIGS. 1 and 2, the screen assemblies 70 include:

the second power member 52 and the rotating shaft 54 are both positioned in the screening box 17, and the second power member 52 and the rotating shaft 54 are connected through a first transmission piece 53;

an eccentric 36, said eccentric 36 being connected to said rotating shaft 54;

a driving disc 35, wherein the driving disc 35 is connected with the eccentric wheel 36 in a sliding manner; and

a shaking member 69, the shaking member 69 being connected to the transmission disc 35, and the shaking member 69 being further connected to the first screening member 22 and the second screening member 29, respectively.

After a plurality of groups of plastic additives are added into the screening box 17, the second power part 52 is started to work through the arranged second power part 52, the second power part 52 can be in a motor form, when the second power part 52 is electrified to rotate, the eccentric wheel 36 can be driven to rotate through the transmission action of the first transmission part 53 and the rotating shaft 54, when the eccentric wheel 36 rotates, the transmission disc 35 can be driven to do reciprocating swing motion, the transmission disc 35 is movably connected with the shaking part 69 through the transmission disc 35, the shaking part 69 can be driven to work synchronously, wherein the shaking part 69 comprises a second spring 27, a second screen 28, a second screening part 29, a reciprocating part 40, a rotating rod 41, a second supporting rod 42 and a second transmission rod 43, one end of the first supporting rod 37 and one end of the rotating rod 41 are hinged with the side wall of the transmission disc 35, the other end of the first supporting rod 37 is hinged with the second supporting rod 42, the second supporting rod 42 is hinged with the other end of the rotating rod 41, and the two ends of the movable rod 39 are hinged with the connection of the rotating rod 41 and the first and second support rods 37 and 42, respectively, when the transmission disc 35 swings, the movable rod 39 can be driven to swing by the cooperation of the rotating rod 41 and the first and second support rods 37 and 42, because one ends of the first and second transmission rods 38 and 43 are hinged with the movable rod 39, the second screening member 29 and the first screening member 22 can be driven to synchronously swing by the first and second transmission rods 38 and 43, respectively, so that the screening work of the plastic additives can be realized, meanwhile, the action force can be generated on the rotating rod 41 by the operation of the control assembly 71, the reciprocating member 40 is arranged on the movable rod 39, and because the hinge of the movable rod 39 and the first and second support rods 37 and 42 is connected in a sliding manner, the action force transmitted by the rotating rod 41 can be applied to the first and second support rods 37 and 42, and can promote the one end of first branch 37 and second branch 42 and rotate certain angle around the other end, and through the reciprocating member 40 that sets up, reciprocating member 40 can adopt the form of spring, through the elastic action of spring, can with control assembly 71 cooperation work, make first branch 37 and second branch 42 resume normal position to can improve the swing range of first transfer line 38 and second transfer line 43 at an interval, be favorable to improving the screening effect of first screening 22 and second screening 29.

In one embodiment of the present invention, referring to fig. 1 and 2, the control assembly 71 includes:

the two ends of the lifting rod 44 are respectively connected with the pressing block 45 and the shaking piece 69, and the lifting rod 44 is connected with the screening box 17 in a sliding manner;

a guide slot 47, wherein the guide slot 47 is positioned on the screening box 17, and the guide slot 47 is slidably connected with the control member 46;

a push rod 59 and a push-pull rod 60, wherein the push rod 59 and the push-pull rod 60 are respectively positioned at two sides of the control member 46, and the push-pull rod 60 is connected with the screening box 17 through a resetting member 61;

the protruding piece 58 is connected with the ejector rod 59 in a rolling mode, and the protruding piece 58 is connected with the screening box 17 in a rotating mode; and

a third transmission member 65, wherein the third transmission member 65 is connected to the protruding member 58 through a rotating shaft 57, and the third transmission member 65 is connected to the rotating shaft 54.

When the second power member 52 drives the rotating shaft 54 to rotate, a third transmission member 65 is provided, wherein the third transmission member 65 includes the first tapered teeth 55 and the second tapered teeth 56, the rotating shaft 57 is driven to rotate by the vertical transmission action of the first tapered teeth 55 and the second tapered teeth 56, the rotating shaft 57 is fixedly connected with the protruding member 58, so that the protruding member 58 can be driven to rotate synchronously, the protruding member 58 can be in the form of a cam, through the provided push rod 59, when the protruding member 58 rotates, a pushing force can be generated on the push rod 59, so that the control member 46 can be driven to slide in the guide groove 47, through the provided push-pull rod 60 and the reset member 61, the reset member 61 can be in the form of a spring and is sleeved on the push-pull rod 60, when the control member 46 slides, the reset member 61 can be in a compressed state, so that through the cooperation action of the reset member 61 and the protruding member 58, the control member 46 can slide in the guide groove 47 in a reciprocating manner, when the control member 46 is in contact with the pressing block 45, the pressing block 45 can be pushed to slide upwards in the screening box 17 through the lifting rod 44, and a pushing force can be generated on the rotating rod 41 through the lifting rod 44, so that the swinging amplitude of the first screening member 22 and the second screening member 29 can be adjusted through the interval contact between the pressing block 45 and the control member 46, and the screening effect is improved, wherein the control member 46 can slide to the lower side of the pressing block 45 just after the pressing block 45 ascends and descends for one period through the action of the transmission ratio between the first conical teeth 55 and the second conical teeth 56, and the structure of the protruding member 58, so that the impact between the control member 46 and the pressing block 45 is avoided, and the control member 46 can slide to the lower side of the pressing block 45 after the pressing block 45 ascends and descends for a plurality of periods, which is not described in detail.

In an embodiment of the present invention, please refer to fig. 1, fig. 3 and fig. 4, which further includes: a partition plate 48, wherein the partition plate 48 is connected with the screening box 17;

first notch 50 and second notch 51, both of said first notch 50 and second notch 51 opening onto said partition plate 48, and both of said first notch 50 and second notch 51 slidably connecting with said screen assembly 70;

a first support 64 and a second support 66, wherein the first support 64 and the second support 66 are both located on the screening box 17, and the first support 64 and the second support 66 are respectively connected with the first screening element 22 and the second screening element 29; and

a first screen 23 and a second screen 28, the first screen 23 and the second screen 28 being located on the first screening element 22 and the second screening element 29 respectively.

When the transmission disc 35 drives the first transmission rod 38 and the second transmission rod 43 to swing, the partition 48 is provided with a first notch 50 and a second notch 51, so that the second transmission rod 43 and the first transmission rod 38 can respectively swing in the first notch 50 and the second notch 51, and when the second transmission rod 43 and the first transmission rod 38 respectively drive one end of the first screening element 22 and one end of the second screening element 29 to swing, the first support element 64 and the second support element 66 are provided, wherein the first support element 64 comprises the first base 20 and the first spring 21, the second support element 66 comprises the second base 26 and the second spring 27, and the screening effect of the first screening element 22 and the second screening element 29 can be improved through the cooperation of the first base 20, the first spring 21, the second base 26 and the second spring 27, meanwhile, the partition plate 48 is provided with a plurality of air holes 49, and the air holes 49 work in cooperation with the air permeable head 34 arranged at the top of the screening box 17, so that air circulation in the screening box 17 can be ensured.

In an embodiment of the present invention, please refer to fig. 1 and fig. 3, further comprising: a mixing plate 24, said mixing plate 24 being connected to said first screen member 22;

a through hole 25, wherein the through hole 25 is arranged on the mixing plate 24; and

a guide 63, said guide 63 being located within said screen box 17.

When the first screening element 22 shakes, the plastic additive meeting the requirements on the first screening element 23 can fall into the mixing plate 24 under the action of gravity, wherein, the mixing plate 24 can adopt a V-shaped structure, and the lowest end of the mixing plate 24 is provided with a plurality of through holes 25, when a plurality of plastic additives are screened and enter the mixing plate 24, under the action of the oscillation of the first screening element 22, a plurality of plastic auxiliaries can be premixed and discharged through the through-holes 25 to the bottom of the screening box 17, and through the guide 63 provided, wherein, the guide member 63 comprises the vibrator 18 and the guide plate 19, by the cooperation of the vibrator 18 and the guide plate 19, the adhesion of the plastic auxiliary to the inner wall of the screening box 17 can be avoided and the speed of discharging can be increased, when the plastic auxiliary is discharged to the bottom of the screening box 17, and can discharge various plastic additives at the bottom of the screening box 17 into the mixing box 2 for mixing and stirring.

In one embodiment of the present invention, referring to fig. 1 and 5, the driving assembly 72 includes:

the two ends of the communicating pipe 16 are respectively communicated with the mixing box 2 and the screening box 17;

a first power member 15, wherein the first power member 15 is positioned on the screening box 17; and

the stirring shaft 5 is rotationally connected with the mixing box 2, and the stirring shaft 5 is connected with the output shaft of the first power part 15 through a second transmission part 62.

When the plastic additive is discharged downwards through the communicating pipe 16, the plastic additive is started to work through the arranged first power part 15, the first power part 15 can adopt a motor form, when the first power part 15 rotates, the stirring shaft 5 can be driven to rotate through the arranged second transmission part 62, wherein the second transmission part 62 comprises a driving belt wheel 12, a transmission belt 13 and a driven belt wheel 14, and when the driven belt wheel 14 rotates, the driving belt wheel 12 can be driven to synchronously rotate through the transmission function of the transmission belt 13, so that the remote transmission between the first power part 15 and the stirring shaft 5 can be realized, of course, the plastic additive can also be replaced by adopting a chain or gear form, and the description is not repeated.

In one embodiment of the present invention, referring to fig. 1, the stirring assembly 73 includes:

the stirring piece 8 is connected with the mixing box 2, and the stirring piece 8 is rotationally connected with the stirring shaft 5;

at least one group of first stirring rods 3, wherein the first stirring rods 3 are rotatably connected with the stirring pieces 8;

the disturbing piece 4 is positioned on the first stirring rod 3; and

and the second stirring plate 6 is connected with the stirring shaft 5.

When first power component 15 drives (mixing) shaft 5 and rotates, can drive stirring 8 synchronous working, wherein, 8 are including driving gear 9, driven gear 10 and driving frame 11, when (mixing) shaft 5 drives driving gear 9 and rotates, through the meshing effect between the gear, can drive driven gear 10 synchronous revolution, and still can take place the rotation when driven gear 10 rotates around driving gear 9, therefore can drive first puddler 3, stirring piece 4 and second stirring board 6 rotate, when first puddler 3 and stirring piece 4 pivoted, still can do the rolling motion around driven gear 10's center, thereby can carry out abundant mixed stirring to the plastics auxiliary agent that discharges into in mixing box 2.

In an embodiment of the present invention, please refer to fig. 1, which further includes: a flow divider 68, wherein the flow divider 68 is connected with the screening box 17; and

a feed member 67, the feed member 67 being located on the flow divider 68.

When a plurality of groups of plastic additives are required to be added into the screening box 17, the plastic additives can be respectively added into each compartment on the second screening element 29 through the arranged feeding piece 67 and the arranged dividing piece 68, wherein the feeding piece 67 comprises a feeding pipe 30 and a feeding hole 33, the dividing piece 68 comprises a dividing pipe 31 and a dividing plate 32, the plastic additives can be respectively added into each compartment on the second screening element 29 through the feeding hole 33 and the feeding pipe 30, the dividing pipe 31 can adopt a round tubular structure or a square structure through the arranged dividing plate 32 and the dividing pipe 31, the dividing plate 32 can be detachably connected with the dividing pipe 31, so that the dividing plate 32 can be pulled out from the dividing pipe 31 or inserted into the dividing pipe 31 according to requirements, when a plurality of raw materials are required to be separately screened, the dividing plate 32 can be pulled out from the dividing pipe 31 so as to improve the feeding speed, on the contrary, when the dividing plate 32 is inserted into the dividing pipe 31, the plurality of raw materials can be simultaneously added into the second screening element 29, be favorable to improve equipment's practicality and flexibility, and the bottom of mixing box 2 is equipped with discharge gate 7, after plastics auxiliary agent screening and misce bene, discharge gate 7 that the accessible set up discharges to next process.

In summary, after a plurality of sets of plastic additives are added into the screening box 17, the second power element 52 is set to operate, so as to drive the eccentric wheel 36 to rotate, when the eccentric wheel 36 rotates, the driving disc 35 is driven to do reciprocating swing motion, the driving disc 35 is movably connected with the shaking element 69, the shaking element 69 is driven to operate synchronously, and the second screening element 29 and the first screening element 22 are driven to also perform synchronous swing motion, so as to realize screening work on the plastic additives, meanwhile, when the second power element 52 drives the rotating shaft 54 to rotate, the third transmission element 65 is set to drive the rotating shaft 57 to rotate, because the rotating shaft 57 is fixedly connected with the protruding element 58, the protruding element 58 is driven to rotate synchronously, through the set push rod 59, when the protruding element 58 rotates, a pushing force is applied to the push rod 59, so as to drive the control element 46 to slide in the guide groove 47, and through the push-pull rod 60 and the reset piece 61, the reset piece 61 can be in the form of a spring and is sleeved on the push-pull rod 60, when the control piece 46 slides, the reset piece 61 can be in a compressed state, so that the control piece 46 can slide in the guide groove 47 in a reciprocating manner through the matching effect of the reset piece 61 and the bulge piece 58, when the control piece 46 is in contact with the pressing piece 45, the pressing piece 45 can be pushed to slide upwards in the screening box 17 through the lifting rod 44, and the lifting rod 44 can generate a pushing force effect on the rotating rod 41, so that the swinging amplitude of the first screening piece 22 and the second screening piece 29 can be adjusted through the spaced contact of the pressing piece 45 and the control piece 46, and the screening effect is improved.

When the plastic auxiliary agent is discharged downwards through the communicating pipe 16, the operation is started through the arranged first power part 15, the stirring shaft 5 can be driven to rotate by the arranged second transmission piece 62, when the stirring shaft 5 rotates, the stirring members 8 can be driven to work synchronously, so that the first stirring rod 3, the disturbing member 4 and the second stirring plate 6 can be driven to rotate, when the first stirring rod 3 and the disturbing piece 4 rotate, the first stirring rod and the disturbing piece also rotate around the center, so that the plastic auxiliary agent discharged into the mixing box 2 can be fully mixed and stirred, and is arranged above the mixing box 2 through the screening box 17, the screened plastic auxiliary agent can quickly enter the mixing box 2 to be stirred under the action of gravity, thereby guaranteed the wholeness of device, and the screening is better with the effect of mixing to improve the efficiency of work, practiced thrift cost and manpower, provided convenience for the staff.

It should be noted that, in the present invention, unless otherwise specifically stated or limited, the terms "sliding", "rotating", "fixing", "providing", and the like are to be understood in a broad sense, and may be, for example, a welded connection, a bolted connection, or an integral body; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The utility model provides a mixed all-in-one of plastic auxiliary agent screening, includes mixing box and screening case and is used for the supporting seat of fixed mixing box and screening case, its characterized in that still includes:

the screening assembly is connected with the screening box;

the screening assembly comprises a screening assembly and a control assembly, the screening assembly and the control assembly are installed in a matched mode, the screening assembly comprises a first screening piece and a second screening piece, the control assembly comprises a pressing block and a control piece, and the plastic auxiliaries in the first screening piece and the second screening piece can be subjected to vibration screening in a mode that the pressing block and the control piece are driven by the screening assembly to be in contact at intervals;

the mixing component is respectively connected with the mixing box and the screening box;

the mixing component comprises a driving component and a stirring component, the driving component is connected with the stirring component, and the driving component is used for driving the stirring component to fully stir and mix a plurality of groups of plastic auxiliaries after screening is finished;

the screen assembly includes: the second power part and the rotating shaft are both positioned in the screening box and are connected through a first transmission piece;

the eccentric wheel is connected with the rotating shaft;

the transmission disc is connected with the eccentric wheel in a sliding manner;

the shaking piece is connected with the transmission disc and is also respectively connected with the first screening piece and the second screening piece;

the control assembly includes: the two ends of the lifting rod are respectively connected with the pressing block and the shaking piece, and the lifting rod is connected with the screening box in a sliding manner;

the guide groove is positioned on the screening box and is in sliding connection with the control piece;

the push-pull rod and the push-pull rod are respectively positioned on two sides of the control piece and are connected with the screening box through a resetting piece;

the protruding part is in rolling connection with the ejector rod and is in rotating connection with the screening box;

the third transmission piece is connected with the protruding piece through a rotating shaft and is connected with the rotating shaft;

further comprising: the partition plate is connected with the screening box;

the first notch and the second notch are both arranged on the partition plate and are in sliding connection with the screening component;

the first supporting piece and the second supporting piece are both positioned on the screening box and are respectively connected with the first screening piece and the second screening piece; and

a first screen and a second screen, the first screen and the second screen being located on the first screening member and the second screening member, respectively.

2. The plastic auxiliary screening and mixing all-in-one machine of claim 1, further comprising: a mixing plate connected with the first screening element;

the through hole is formed in the mixing plate; and

a guide located within the screening bin.

3. The plastic auxiliary agent screening and mixing all-in-one machine of claim 1, wherein the drive assembly comprises:

the two ends of the communicating pipe are respectively communicated with the mixing box and the screening box;

the first power part is positioned on the screening box; and

the stirring shaft, the stirring shaft with the mixing box rotates to be connected, just the stirring shaft pass through the second driving medium with the output shaft of first power spare is connected.

4. The plastic auxiliary agent screening and mixing all-in-one machine of claim 3, wherein the stirring assembly comprises:

the stirring piece is connected with the mixing box and is rotationally connected with the stirring shaft;

the first stirring rods are connected with the stirring pieces in a rotating mode;

the disturbing piece is positioned on the first stirring rod; and

and the second stirring plate is connected with the stirring shaft.

5. The plastic auxiliary agent screening and mixing all-in-one machine of claim 1, further comprising: the flow dividing piece is connected with the screening box; and

a feed member positioned on the splitter.

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