CN112337335A - Mixing equipment for processing plastic additives - Google Patents

Abstract

The invention relates to the field of mixing equipment for processing plastic additives, in particular to mixing equipment for processing plastic additives, which comprises a base, a supporting structure, a storage structure, a stirring barrel, a transmission structure, a rotating structure, a fixing structure and a stirring structure, wherein the stirring barrel is arranged on the base; the stirring barrel is rotationally connected with the base through a rotating structure; rotating-structure's setting is convenient for quick angle between regulation agitator and the base, make storage structure and the bearing structure one-to-one on the agitator, and then be convenient for place storage structure on bearing structure, through opening and close between fixed knot constructs control storage structure and the agitator, the agitator is kept away from to the storage structure of being convenient for to accomplish through bearing structure drive stirring simultaneously, make the storage structure that needs the stirring quick be connected with the agitator, and then make the interpolation of material with discharge convenient and fast more, and then the efficiency and the quality of the interpolation and the emission of material have been improved greatly, the utilization ratio of stirring subassembly has been improved, and then the efficiency of the mixture of material has been improved greatly.

Description

Mixing equipment for processing plastic additives

Technical Field

The invention relates to the field of mixing equipment for processing plastic additives, in particular to mixing equipment for processing plastic additives.

Background

Plastic additives, also called plastic additives, are compounds which must be added to improve the processability of a polymer (synthetic resin) during molding or to improve the properties of the resin itself, for example, plasticizers which are added to lower the molding temperature of polyvinyl chloride resins and to soften products; in addition, for example, a foaming agent is added for preparing the light, vibration-resistant, heat-insulating and sound-insulating foam plastic; the thermal decomposition temperature of some plastics is very close to the molding processing temperature, and the plastics cannot be molded without adding a heat stabilizer; therefore, the plastic additive plays a particularly important role in plastic molding processing; a large class of auxiliary agents for plastic molding products, including plasticizers, heat stabilizers, antioxidants, light stabilizers, flame retardants, foaming agents, antistatic agents, mildewproof agents, colorants, whitening agents (see pigments), fillers, coupling agents, lubricants, mold release agents, and the like; the coloring agent, the whitening agent and the filling agent are not special chemicals for plastics but are general matching materials, and a plurality of ingredients are required to be mixed by using mixing equipment in the processing process of the plastic auxiliary agent.

However, traditional compounding equipment for plastics auxiliary agent processing is not convenient for with the quick interpolation of material to compounding equipment in, and be not convenient for quick material that discharges out in the compounding equipment, the interpolation of material with discharge process in need longer time interval, and then the rate of utilization of having influenced compounding equipment, and the efficiency of the compounding of influence, the while is the single stirring formula mostly, it is fixed in stirring in-process stirring space, be not convenient for quick control material what, and then the efficiency and the quality of the stirring of material have been influenced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a mixing device for processing a plastic additive.

The technical scheme adopted by the invention for solving the technical problems is as follows: a mixing device for processing plastic additives comprises a base, a supporting structure, a storage structure, a stirring barrel, a transmission structure, a rotating structure, a fixing structure and a stirring structure; the base is provided with the supporting structure for placing the storage structure, the base is provided with the rotating structure for adjusting the angle of the stirring barrel, and the stirring barrel is rotatably connected with the base through the rotating structure; one end of the stirring barrel is provided with the fixing structure for fixing the storage structure, and the stirring barrel is abutted against the storage structure; the stirring structure for stirring materials is arranged in the stirring barrel, and the stirring structure can extend into the storage structure; the end of the stirring structure is connected with the transmission structure, and one end of the transmission structure, which deviates from the stirring structure, is fixed at the top end of the base.

Concretely, revolution mechanic includes transmission frame, pivot, first gyro wheel, spout and third electric hydraulic cylinder, the both ends symmetry of agitator is equipped with two the pivot, the pivot with rotate between the base and be connected, the transmission frame is fixed in one of them the pivot, be equipped with on the transmission frame the spout, first gyro wheel with roll connection between the spout, first gyro wheel with rotate between the one end of third electric hydraulic cylinder and connect, the other one end of third electric hydraulic cylinder with rotate between the base and be connected.

Specifically, fixed knot constructs including fourth electric hydraulic cylinder, push rod, second gyro wheel, driving ring, fixture block, third gyro wheel and driving groove, the driving ring with rotate between the agitator and be connected, be equipped with on the driving ring the push rod, the second gyro wheel with roll connection between the push rod, fourth electric hydraulic cylinder's one end with rotate between the second gyro wheel and be connected, fourth electric hydraulic cylinder's other one end with rotate between the agitator and be connected, the circumference array is equipped with a plurality of slopes and sets up on the driving ring the driving groove, the inside of driving groove is equipped with roll connection the third gyro wheel, the third gyro wheel with rotate between the fixture block and be connected, the fixture block with sliding connection between the agitator, the fixture block deviates from the cross-section of the one end of third gyro wheel is trapezoidal.

Specifically, the storage structure includes bucket and draw-in groove, the bucket with contradict between the agitator, be equipped with the annular on the bucket the draw-in groove, the fixture block with block between the draw-in groove.

Specifically, bearing structure includes carriage, sliding frame, spacing groove, guide rail, slide bar, first electric hydraulic cylinder, dog and second electric hydraulic cylinder, be equipped with on the base the guide rail, the slide bar with sliding connection between the guide rail, first electric hydraulic cylinder's both ends are fixed in respectively the guide rail with the slide bar, the carriage is fixed in the bottom of slide bar, sliding frame with sliding connection between the carriage, sliding frame's lateral wall is equipped with the dog, second electric hydraulic cylinder's both ends are fixed in respectively the dog with the carriage, be equipped with two on the sliding frame and be used for supporting and place the storage bucket the spacing groove.

Specifically, the transmission structure includes pull rod, transfer line, connecting rod and fixed frame, be equipped with on the base the pull rod, the transfer line with rotate between the pull rod and be connected, the transfer line with rotate between the connecting rod and be connected, the connecting rod is fixed in fixed frame.

Specifically, the stirring structure includes puddler, scraper blade, (mixing) shaft, solid fixed ring and motor, gu fixed ring with sliding connection between the agitator, the (mixing) shaft with rotate between the solid fixed ring and connect, the motor is fixed in fixed frame, the (mixing) shaft is fixed in the motor, circumference array is equipped with that a plurality of cross-sections are wave structure on the (mixing) shaft the puddler, the puddler deviates from the one end of (mixing) shaft is equipped with the scraper blade, the scraper blade with sliding connection between the agitator.

The invention has the beneficial effects that:

(1) according to the mixing equipment for processing the plastic additives, the base is provided with the supporting structure for placing the storage structure, the base is provided with the rotating structure for adjusting the angle of the stirring barrel, and the stirring barrel is rotationally connected with the base through the rotating structure; one end of the stirring barrel is provided with a fixing structure for fixing the storage structure, and the stirring barrel is abutted against the storage structure; rotating-structure's setting is convenient for quick angle between regulation agitator and the base, make storage structure and the bearing structure one-to-one on the agitator, and then be convenient for place storage structure on bearing structure, through opening and close between fixed knot constructs control storage structure and the agitator, the agitator is kept away from to the storage structure of being convenient for to accomplish through bearing structure drive stirring simultaneously, make the storage structure that needs the stirring quick be connected with the agitator, and then make the interpolation of material with discharge convenient and fast more, and then the efficiency and the quality of the interpolation and the emission of material have been improved greatly, the utilization ratio of stirring subassembly has been improved, and then the efficiency of the mixture of material has been improved greatly, namely: firstly, adding a proper amount of materials into a storage barrel, then placing the storage barrel in a limit groove which is close to a stop block, extending a second electric hydraulic cylinder to push the stop block, enabling the stop block to drive a sliding frame to slide towards the stop block, enabling another limit groove to correspond to the storage barrel on the stirring barrel one by one, then extending a third electric hydraulic cylinder, rotating the third electric hydraulic cylinder with a base while extending, simultaneously rolling a first roller and a chute at the end part of the third electric hydraulic cylinder to push a transmission frame to rotate, driving the rotation between a rotating shaft and the base by the transmission frame, further enabling the rotating shaft to drive the stirring barrel to rotate ninety degrees, enabling the storage barrel on the stirring barrel to vertically face the limit groove, extending the first electric hydraulic cylinder, driving the sliding rod to slide between the sliding rod and a guide rail, enabling the sliding rod to drive a support frame to move towards the direction of the stirring barrel, and further enabling the limit groove on the sliding frame on the support frame to be, then the fourth electric hydraulic cylinder extends, a second roller at the end part of the fourth electric hydraulic cylinder rolls with the push rod, the push rod pushes the transmission ring to rotate, the transmission ring rotates, the transmission groove drives the third roller to roll, the third roller drives the clamping block to slide away from the clamping groove direction, so that the storage barrel is separated from the stirring barrel, meanwhile, the end part of the clamping block is trapezoidal, the guiding effect is achieved, after the clamping block abuts against the storage barrel, the force in the direction of disassembling the stirring barrel is applied to the storage barrel, so that the assembly and disassembly between the storage barrel and the stirring barrel are more convenient and rapid, then, the first electric hydraulic cylinder contracts, the first electric hydraulic cylinder drives the slide rod, the slide rod drives the support frame to slide away from the direction of the stirring barrel, the slide frame drives the storage barrel to separate from the stirring barrel, then, the second electric hydraulic cylinder contracts, the second electric hydraulic cylinder drives the stop block, so that the, make the initial storage bucket of placing correspond with the agitator, first electric hydraulic cylinder extension this moment, first electric hydraulic cylinder drives and slides between slide bar and the guide rail, make the slide bar drive the carriage and move towards the agitator direction, and then make agitator and storage bucket block, and then make the interpolation of material with discharge convenient and fast more, and then improved the interpolation of material greatly and the efficiency and the quality of emission, improved the utilization ratio of stirring subassembly, and then improved the efficiency of the mixture of material greatly.

(2) According to the mixing equipment for processing the plastic additives, the end part of the stirring structure is connected with the transmission structure, one end of the transmission structure, which is far away from the stirring structure, is fixed at the top end of the base, and the transmission structure is arranged, so that the stirring structure can be automatically adjusted to be taken out of the storage structure and extend into the storage structure in the process of driving the stirring barrel and the base to rotate by the rotating structure, and the operation is more convenient and faster, namely: when the agitator is rotatory towards the spacing groove, make the transfer line around the pull rod clockwise, make the distance increase between the end of carrying on the back of transfer line and pull rod, and then make the transfer line drive the connecting rod, make the connecting rod drive fixed frame, make fixed frame drive solid fixed ring and deviate from the storage bucket direction and slide, and then make (mixing) shaft and scraper blade accomplish and take out from the storage bucket, when the agitator is perpendicular with the base, contained angle between transfer line and the pull rod reaches the minimum, distance between transfer line and the pull rod is minimum, and then be convenient for drive fixed frame through the connecting rod, make fixed frame drive and slide between solid fixed ring and the agitator, and then be convenient for accomplish the inside that extends to the storage bucket with (mixing) shaft and scraper blade, and then operation.

(3) According to the mixing equipment for processing the plastic additives, the stirring structure for stirring materials is arranged in the stirring barrel, the stirring structure can extend into the storage structure, and the stirring barrel and the base are driven to rotate by matching with the rotating structure, so that the efficiency and the quality of stirring the materials are greatly improved, and the materials are conveniently stirred in all directions, namely: when in stirring, the length of the third electric hydraulic cylinder is changed and the third electric hydraulic cylinder rotates with the base at the same time, meanwhile, the first roller at the end part of the third electric hydraulic cylinder rolls with the chute to push the transmission frame to rotate, the transmission frame drives the rotating shaft to rotate with the base, so that the rotating shaft drives the stirring barrel to rotate, the position of the scraper and the stirring rod thereof corresponding to the stirring barrel and the storage barrel thereof is changed, meanwhile, the motor drives the stirring shaft to rotate, the stirring shaft drives the stirring rod and the scraper thereof to rotate, so as to be convenient for stirring the materials in all directions, and simultaneously, the storage barrel has the function of quantitatively adding the materials, so that the space formed by the stirring barrel and the storage barrel is larger than the volume of the materials, and then further be convenient for the omnidirectional upset stirring of material, and then improved the efficiency and the quality of the stirring of material greatly.

Drawings

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

FIG. 1 is a schematic structural diagram of an overall structure of a preferred embodiment of a mixing apparatus for plastic additive processing according to the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is an enlarged view of the portion B shown in FIG. 1;

FIG. 4 is a schematic view of a connection structure between the support structure and the base shown in FIG. 1;

FIG. 5 is a schematic view of the connection structure between the fixing structure and the mixing tank shown in FIG. 3;

FIG. 6 is an enlarged view of the portion C shown in FIG. 5;

FIG. 7 is a schematic structural view of the fastening structure shown in FIG. 6;

fig. 8 is a schematic view of a connection structure between the stirring structure and the stirring barrel shown in fig. 5.

In the figure: 1. the device comprises a base, 2, a supporting structure, 21, a supporting frame, 22, a sliding frame, 23, a limiting groove, 24, a guide rail, 25, a sliding rod, 26, a first electric hydraulic cylinder, 27, a stop block, 28, a second electric hydraulic cylinder, 3, a storage structure, 31, a storage barrel, 32, a clamping groove, 4, a stirring barrel, 5, a transmission structure, 51, a pull rod, 52, a transmission rod, 53, a connecting rod, 54, a fixing frame, 6, a rotating structure, 61, a transmission frame, 62, a rotating shaft, 63, a first roller, 64, a sliding groove, 65, a third electric hydraulic cylinder, 7, a fixing structure, 71, a fourth electric hydraulic cylinder, 72, a push rod, 73, a second roller, 74, a transmission ring, 75, a clamping block, 76, a third roller, 77, a transmission groove, 8, a stirring structure, 81, a stirring rod, 82, a scraper, 83, a stirring shaft, 84, a fixing ring, 85 and a motor.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-8, the mixing device for processing plastic additives comprises a base 1, a supporting structure 2, a storage structure 3, a stirring barrel 4, a transmission structure 5, a rotating structure 6, a fixing structure 7 and a stirring structure 8; the base 1 is provided with the supporting structure 2 for placing the storage structure 3, the base 1 is provided with the rotating structure 6 for adjusting the angle of the stirring barrel 4, and the stirring barrel 4 is rotatably connected with the base 1 through the rotating structure 6; one end of the stirring barrel 4 is provided with the fixing structure 7 for fixing the storage structure 3, and the stirring barrel 4 is abutted against the storage structure 3; the stirring structure 8 for stirring materials is arranged inside the stirring barrel 4, and the stirring structure 8 can extend into the storage structure 3; the end part of the stirring structure 8 is connected with the transmission structure 5, and one end of the transmission structure 5 departing from the stirring structure 8 is fixed at the top end of the base 1.

Concretely, revolution mechanic 6 includes transmission frame 61, pivot 62, first gyro wheel 63, spout 64 and third electric hydraulic cylinder 65, the both ends symmetry of agitator 4 is equipped with two pivot 62, pivot 62 with rotate between the base 1 and be connected, transmission frame 61 is fixed in one of them pivot 62, be equipped with on the transmission frame 61 spout 64, first gyro wheel 63 with roll connection between the spout 64, first gyro wheel 63 with rotate between the one end of third electric hydraulic cylinder 65 and connect, the other end of third electric hydraulic cylinder 65 with rotate between the base 1 and connect.

Specifically, the fixing structure 7 comprises a fourth electric hydraulic cylinder 71, a push rod 72, a second roller 73, a transmission ring 74, a latch 75, a third roller 76 and a transmission groove 77, the driving ring 74 is rotatably connected with the stirring barrel 4, the push rod 72 is arranged on the driving ring 74, the second roller 73 is connected with the push rod 72 in a rolling way, one end of the fourth electric hydraulic cylinder 71 is connected with the second roller 73 in a rotating way, the other end of the fourth electric hydraulic cylinder 71 is rotatably connected with the stirring barrel 4, a plurality of obliquely arranged transmission grooves 77 are circumferentially arrayed on the transmission ring 74, the inside of the transmission groove 77 is provided with the third roller 76 in rolling connection, the third roller 76 is rotatably connected with the fixture block 75, the fixture block 75 is slidably connected with the stirring barrel 4, and the section of one end of the fixture block 75 departing from the third roller 76 is trapezoidal.

Specifically, the storage structure 3 includes a storage barrel 31 and a clamping groove 32, the storage barrel 31 is abutted against the stirring barrel 4, the storage barrel 31 is provided with the annular clamping groove 32, and the clamping block 75 is clamped with the clamping groove 32.

Specifically, the supporting structure 2 includes a supporting frame 21, a sliding frame 22, a limiting groove 23, a guide rail 24, a sliding rod 25, a first electric hydraulic cylinder 26, a stopper 27 and a second electric hydraulic cylinder 28, the guide rail 24 is disposed on the base 1, the sliding rod 25 is slidably connected with the guide rail 24, two ends of the first electric hydraulic cylinder 26 are respectively fixed to the guide rail 24 and the sliding rod 25, the supporting frame 21 is fixed to the bottom end of the sliding rod 25, the sliding frame 22 is slidably connected with the supporting frame 21, the stopper 27 is disposed on the side wall of the sliding frame 22, two ends of the second electric hydraulic cylinder 28 are respectively fixed to the stopper 27 and the supporting frame 21, and the sliding frame 22 is provided with two limiting grooves 23 for supporting and placing the storage barrel 31; the base 1 is provided with the supporting structure 2 for placing the storage structure 3, the base 1 is provided with the rotating structure 6 for adjusting the angle of the stirring barrel 4, and the stirring barrel 4 is rotatably connected with the base 1 through the rotating structure 6; one end of the stirring barrel 4 is provided with the fixing structure 7 for fixing the storage structure 3, and the stirring barrel 4 is abutted against the storage structure 3; the setting up of revolution mechanic 6 is convenient for quick regulation agitator 4 with angle between the base 1 makes on the agitator 4 storage structure 3 with bearing structure 2 one-to-one, and then be convenient for with storage structure 3 is placed on bearing structure 2, through fixed knot constructs 7 control storage structure 3 with opening and close between agitator 4 is convenient for simultaneously pass through 2 drive stirring of bearing structure is accomplished storage structure 3 keeps away from agitator 4 makes needs the stirring storage structure 3 quick with agitator 4 is connected, and then makes the interpolation of material and discharge convenient and fast more, and then has improved the efficiency and the quality of the interpolation and the emission of material greatly, has improved the utilization ratio of stirring subassembly, and then has improved the efficiency of the mixture of material greatly, promptly: firstly, adding a proper amount of materials into the storage barrel 31, then placing the storage barrel 31 in one of the limit grooves 23 which is close to the stop block 27, then extending the second electric hydraulic cylinder 28 to push the stop block 27, so that the stop block 27 drives the sliding frame 22 to slide towards the stop block 27, so that the other limit groove 23 can correspond to the storage barrel 31 on the stirring barrel 4 one by one, then extending the third electric hydraulic cylinder 65, rotating the third electric hydraulic cylinder 65 with the base 1 while extending, simultaneously rolling the first roller 63 and the sliding groove 64 at the end part of the third electric hydraulic cylinder 65 to push the transmission frame 61 to rotate, driving the rotation shaft 62 and the base 1 to rotate, and further driving the stirring barrel 4 to rotate ninety degrees by the rotation shaft 62, the storage barrel 31 on the stirring barrel 4 is vertically faced to the limiting groove 23, at this time, the first electric hydraulic cylinder 26 extends, the first electric hydraulic cylinder 26 drives the sliding rod 25 to slide between the guide rail 24, the sliding rod 25 drives the support frame 21 to move towards the stirring barrel 4, so that the limiting groove 23 on the sliding frame 22 on the support frame 21 is clamped with the storage barrel 31 on the stirring barrel 4, then the fourth electric hydraulic cylinder 71 extends, the second roller 73 at the end of the fourth electric hydraulic cylinder 71 rolls between the push rod 72, the push rod 72 pushes the transmission ring 74 to rotate, the transmission ring 74 rotates, the transmission groove 77 drives the third roller 76 to roll, and the third roller 76 drives the clamping block 75 to slide away from the clamping groove 32, then the storage barrel 31 is separated from the stirring barrel 4, meanwhile, the end of the clamping block 75 is trapezoidal, which has a guiding effect, after the clamping block 75 abuts against the storage barrel 31, a force for detaching the stirring barrel 4 is applied to the storage barrel 31, so that the installation and detachment between the storage barrel 31 and the stirring barrel 4 are more convenient and faster, then the first electric hydraulic cylinder 26 contracts, the first electric hydraulic cylinder 26 drives the sliding rod 25, the sliding rod 25 drives the supporting frame 21 to slide away from the stirring barrel 4, the sliding frame 22 drives the storage barrel 31 to be separated from the stirring barrel 4, then the second electric hydraulic cylinder 28 contracts, the second electric hydraulic cylinder 28 drives the stop block 27, the stop block 27 drives the sliding frame 22 to slide with the supporting frame 21, and the storage barrel 31 initially placed corresponds to the stirring barrel 4, at this moment first electric hydraulic cylinder 26 extends, first electric hydraulic cylinder 26 drives slide bar 25 with slide between the guide rail 24, make slide bar 25 drives carriage 21 orientation 4 directions of agitator remove, and then make agitator 4 with storage bucket 31 block, and then make the interpolation of material with discharge convenient and fast more, and then improved the interpolation of material greatly and the efficiency and the quality of emission, improved the utilization ratio of stirring subassembly, and then improved the efficiency of the mixture of material greatly.

Specifically, the transmission structure 5 comprises a pull rod 51, a transmission rod 52, a connecting rod 53 and a fixed frame 54, the pull rod 51 is arranged on the base 1, the transmission rod 52 is rotatably connected with the pull rod 51, the transmission rod 52 is rotatably connected with the connecting rod 53, and the connecting rod 53 is fixed on the fixed frame 54; stirring structure 8's end connection in transmission structure 5, just transmission structure 5 deviates from stirring structure 8's one end is fixed in base 1's top, transmission structure 5's setting is convenient for revolution mechanic 6 drive agitator 4 with base 1 rotates the in-process, automatic regulation stirring structure 8 is followed take out and extend the entering in storage structure 3, and then make the operation convenient and fast more, promptly: when the stirring barrel 4 rotates towards the limiting groove 23, the transmission rod 52 rotates clockwise around the pull rod 51, so that the distance between the transmission rod 52 and the opposite end of the pull rod 51 is increased, the transmission rod 52 drives the connecting rod 53, the connecting rod 53 drives the fixing frame 54, the fixing frame 54 drives the fixing ring 84 to slide away from the storage barrel 31, the stirring shaft 83 and the scraper 82 are taken out of the storage barrel 31, when the stirring barrel 4 is perpendicular to the base 1, the included angle between the transmission rod 52 and the pull rod 51 is minimum, the distance between the transmission rod 52 and the pull rod 51 is minimum, and the fixing frame 54 is driven by the connecting rod 53 to drive the fixing ring 84 to slide between the stirring barrel 4, thereby facilitating the complete extension of the stirring shaft 83 and the scraper 82 thereof into the storage barrel 31, and greatly improving the operation flexibility.

Specifically, the stirring structure 8 comprises a stirring rod 81, a scraping plate 82, a stirring shaft 83, a fixing ring 84 and a motor 85, the fixing ring 84 is connected with the stirring barrel 4 in a sliding manner, the stirring shaft 83 is connected with the fixing ring 84 in a rotating manner, the motor 85 is fixed on the fixing ring 54, the stirring shaft 83 is fixed on the motor 85, a plurality of stirring rods 81 with wave-shaped cross sections are arranged on the stirring shaft 83 in a circumferential array manner, the scraping plate 82 is arranged at one end of the stirring rod 81, which is far away from the stirring shaft 83, and the scraping plate 82 is connected with the stirring barrel 4 in a sliding manner; the inside of agitator 4 is equipped with and is used for stirring the material stirring structure 8, just stirring structure 8 extensible extremely the inside of storage structure 3 cooperates rotating structure 4 drive agitator 4 with rotate between the base 1, and then improved the efficiency and the quality of the stirring to the material greatly, be convenient for carry out the omnidirectional stirring to the material, promptly: during stirring, the length of the third electric hydraulic cylinder 65 is changed and the third electric hydraulic cylinder 65 rotates with the base 1, and at the same time, the first roller 63 and the sliding groove 64 at the end of the third electric hydraulic cylinder 65 roll to push the transmission frame 61 to rotate, the transmission frame 61 drives the rotating shaft 62 and the base 1 to rotate, so that the rotating shaft 62 drives the stirring barrel 4 to rotate, the scraper 82 and the stirring rod 81 thereof are changed corresponding to the stirring barrel 4 and the storage barrel 31, the motor 85 drives the stirring shaft 83 to rotate, the stirring shaft 83 drives the stirring rod 81 and the scraper 82 thereof to rotate, so that the materials can be stirred in all directions conveniently, and the storage barrel 31 has a function of quantitatively adding the materials, the space that makes agitator 4 with bucket 31 constitutes is greater than the volume of material, and further the omnidirectional upset stirring of the material of being convenient for, and then has improved the efficiency and the quality of the stirring of material greatly.

When the invention is used, firstly, a proper amount of materials are added into the storage barrel 31, then the storage barrel 31 is placed in one limit groove 23 which is close to the stop block 27, then the second electric hydraulic cylinder 28 extends to push the stop block 27, so that the stop block 27 drives the sliding frame 22 to slide towards the stop block 27, so that the other limit groove 23 can correspond to the storage barrel 31 on the stirring barrel 4 one by one, then the third electric hydraulic cylinder 65 extends, the third electric hydraulic cylinder 65 extends and rotates with the base 1, meanwhile, the first roller 63 at the end part of the third electric hydraulic cylinder 65 rolls with the sliding groove 64 to push the transmission frame 61 to rotate, the transmission frame 61 drives the rotating shaft 62 to rotate with the base 1, further, the rotating shaft 62 drives the stirring barrel 4 to rotate for ninety degrees, so that the storage barrel 31 on the stirring barrel 4 vertically faces towards the limit groove 23, at the moment, the first electric hydraulic cylinder 26 extends, the first electric hydraulic cylinder 26 drives the sliding rod 25 to slide with, the sliding rod 25 drives the supporting frame 21 to move towards the direction of the stirring barrel 4, so that the limiting groove 23 on the sliding frame 22 on the supporting frame 21 is clamped with the storage barrel 31 on the stirring barrel 4, then the fourth electric hydraulic cylinder 71 extends, the second roller 73 at the end part of the fourth electric hydraulic cylinder 71 rolls with the push rod 72, the push rod 72 pushes the transmission ring 74 to rotate, the transmission ring 74 rotates, the transmission groove 77 drives the third roller 76 to roll, the third roller 76 drives the fixture block 75 to slide away from the direction of the clamping groove 32, so that the storage barrel 31 is separated from the stirring barrel 4, meanwhile, the end part of the fixture block 75 is trapezoidal, so that a guiding effect is achieved, after the fixture block 75 abuts against the storage barrel 31, a force in the direction of detaching the stirring barrel 4 is applied to the storage barrel 31, so that the mounting and detaching between the storage barrel 31 and the stirring barrel 4 are more convenient and rapid, then the first electric hydraulic cylinder 26 contracts, the first electric hydraulic cylinder, the slide rod 25 drives the support frame 21 to slide away from the direction of the stirring barrel 4, the slide frame 22 drives the storage barrel 31 to be separated from the stirring barrel 4, then the second electric hydraulic cylinder 28 contracts, the second electric hydraulic cylinder 28 drives the stop block 27, the stop block 27 drives the slide frame 22 to slide with the support frame 21, the initially placed storage barrel 31 corresponds to the stirring barrel 4, at the moment, the first electric hydraulic cylinder 26 extends, the first electric hydraulic cylinder 26 drives the slide rod 25 to slide with the guide rail 24, the slide rod 25 drives the support frame 21 to move towards the direction of the stirring barrel 4, the stirring barrel 4 is clamped with the storage barrel 31, the addition and the discharge of materials are more convenient and faster, the efficiency and the quality of the addition and the discharge of the materials are greatly improved, the utilization rate of a stirring assembly is improved, and the efficiency of the mixing of the materials is greatly improved; when the stirring barrel 4 rotates towards the limiting groove 23, the transmission rod 52 rotates clockwise around the pull rod 51, so that the distance between the transmission rod 52 and the opposite end of the pull rod 51 is increased, the transmission rod 52 drives the connecting rod 53, the connecting rod 53 drives the fixing frame 54, the fixing frame 54 drives the fixing ring 84 to slide away from the direction of the storage barrel 31, the stirring shaft 83 and the scraper 82 are taken out of the storage barrel 31, when the stirring barrel 4 is perpendicular to the base 1, the included angle between the transmission rod 52 and the pull rod 51 is minimum, the distance between the transmission rod 52 and the pull rod 51 is minimum, the fixing frame 54 is driven by the connecting rod 53, the fixing ring 84 is driven by the fixing frame 54 to slide with the stirring barrel 4, the stirring shaft 83 and the scraper 82 extend into the storage barrel 31, and the operation flexibility is greatly improved; during stirring, the length of the third electric hydraulic cylinder 65 is changed and the third electric hydraulic cylinder 65 rotates with the base 1, meanwhile, the first roller 63 at the end of the third electric hydraulic cylinder 65 rolls with the chute 64 to push the transmission frame 61 to rotate, the transmission frame 61 drives the rotation shaft 62 to rotate with the base 1, so that the rotation shaft 62 drives the stirring barrel 4 to rotate, so that the scraper 82 and the stirring rod 81 thereof are changed correspondingly to the positions in the stirring barrel 4 and the storage barrel 31 thereof, the motor 85 drives the stirring shaft 83 to rotate, the stirring shaft 83 drives the stirring rod 81 and the scraper 82 thereof to rotate, so as to facilitate omni-directional stirring of the materials, meanwhile, the storage barrel 31 is provided with a function of quantitatively adding the materials, so that the space formed by the stirring barrel 4 and the storage barrel 31 is larger than the volume of the materials, so as to further facilitate omni-directional stirring of the materials, thereby greatly improving the efficiency and the quality of the stirring of the materials.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

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 (7)

1. The utility model provides a compounding equipment is used in processing of plastic auxiliary agent which characterized in that: comprises a base (1), a supporting structure (2), a storage structure (3), a stirring barrel (4), a transmission structure (5), a rotating structure (6), a fixed structure (7) and a stirring structure (8); the base (1) is provided with the supporting structure (2) for placing the storage structure (3), the base (1) is provided with the rotating structure (6) for adjusting the angle of the stirring barrel (4), and the stirring barrel (4) is rotatably connected with the base (1) through the rotating structure (6); one end of the stirring barrel (4) is provided with the fixing structure (7) for fixing the storage structure (3), and the stirring barrel (4) is abutted against the storage structure (3); the stirring structure (8) for stirring materials is arranged in the stirring barrel (4), and the stirring structure (8) can extend into the storage structure (3); the end part of the stirring structure (8) is connected with the transmission structure (5), and one end of the transmission structure (5) deviating from the stirring structure (8) is fixed at the top end of the base (1).

2. A mixing apparatus for processing a plastic additive according to claim 1, characterised in that: revolution mechanic (6) are including transmission frame (61), pivot (62), first gyro wheel (63), spout (64) and third electric hydraulic cylinder (65), the both ends symmetry of agitator (4) is equipped with two pivot (62), pivot (62) with rotate between base (1) and connect, transmission frame (61) are fixed in one of them pivot (62), be equipped with on transmission frame (61) spout (64), first gyro wheel (63) with roll connection between spout (64), first gyro wheel (63) with rotate between the one end of third electric hydraulic cylinder (65) and connect, the other one end of third electric hydraulic cylinder (65) with rotate between base (1) and connect.

3. A mixing apparatus for processing of plastic additives, as claimed in claim 2, characterized in that: the fixing structure (7) comprises a fourth electric hydraulic cylinder (71), a push rod (72), a second roller (73), a transmission ring (74), a clamping block (75), a third roller (76) and a transmission groove (77), the transmission ring (74) is rotatably connected with the stirring barrel (4), the push rod (72) is arranged on the transmission ring (74), the second roller (73) is rotatably connected with the push rod (72), one end of the fourth electric hydraulic cylinder (71) is rotatably connected with the second roller (73), the other end of the fourth electric hydraulic cylinder (71) is rotatably connected with the stirring barrel (4), a plurality of obliquely arranged transmission grooves (77) are arranged on the transmission ring (74) in a circumferential array manner, the third roller (76) is rotatably connected with the clamping block (75), the clamping block (75) is connected with the stirring barrel (4) in a sliding mode, and the section of one end, deviating from the third roller (76), of the clamping block (75) is trapezoidal.

4. A mixing apparatus for processing of plastic additives, as claimed in claim 3, characterized in that: the storage structure (3) comprises a storage barrel (31) and a clamping groove (32), the storage barrel (31) is abutted to the stirring barrel (4), the storage barrel (31) is provided with an annular clamping groove (32), and the clamping block (75) is clamped with the clamping groove (32).

5. A mixing apparatus for processing of plastic additives, as claimed in claim 4, characterized in that: the supporting structure (2) comprises a supporting frame (21), a sliding frame (22), a limiting groove (23), a guide rail (24), a sliding rod (25), a first electric hydraulic cylinder (26), a stop block (27) and a second electric hydraulic cylinder (28), the base (1) is provided with the guide rail (24), the slide bar (25) is connected with the guide rail (24) in a sliding way, two ends of the first electric hydraulic cylinder (26) are respectively fixed on the guide rail (24) and the sliding rod (25), the supporting frame (21) is fixed at the bottom end of the sliding rod (25), the sliding frame (22) is connected with the supporting frame (21) in a sliding way, the side wall of the sliding frame (22) is provided with the stop block (27), two ends of the second electric hydraulic cylinder (28) are respectively fixed on the stop block (27) and the supporting frame (21), the sliding frame (22) is provided with two limiting grooves (23) for supporting and placing the storage barrel (31).

6. A mixing apparatus for processing of plastic additives, as claimed in claim 5, characterized in that: drive structure (5) include pull rod (51), transfer line (52), connecting rod (53) and fixed frame (54), be equipped with on base (1) pull rod (51), transfer line (52) with rotate between pull rod (51) and be connected, transfer line (52) with rotate between connecting rod (53) and be connected, connecting rod (53) are fixed in fixed frame (54).

7. A mixing apparatus for processing of plastic additives, as claimed in claim 6, characterized in that: stirring structure (8) include puddler (81), scraper blade (82), (mixing) shaft (83), solid fixed ring (84) and motor (85), gu fixed ring (84) with sliding connection between agitator (4), (mixing) shaft (83) with gu rotate between fixed ring (84) to be connected, motor (85) are fixed in fixed frame (54), (mixing) shaft (83) are fixed in motor (85), circumference array is equipped with that a plurality of cross-sections are the wave structure on (mixing) shaft (83) puddler (81), puddler (81) deviate from the one end of (mixing) shaft (83) is equipped with scraper blade (82), scraper blade (82) with sliding connection between agitator (4).

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