CN115321201A - A stirring feeding device for special engineering plastics - Google Patents

Abstract

The invention discloses a stirring and feeding device for special engineering plastics, which comprises a storage bin, wherein a stirring rod is fixedly connected to the surface of a driving rotary roller, a cleaning device is arranged at one end, away from the driving rotary roller, of the stirring rod, a servo motor is fixedly connected to the top of the storage bin, the output end of the servo motor is fixedly connected with the top end of the driving rotary roller through a coupler, a connecting pipeline is fixedly connected to the surface of the storage bin, a processing device is fixedly connected to the position, close to the bottom, of the surface of the storage bin, the connecting pipeline is communicated with the storage bin and the processing device, and a suction fan is arranged on the surface of the connecting pipeline and close to the processing device. This a stirring feeding device for special engineering plastics has reached strong adaptability's effect, can in time clear up the plastics that glues on the inner wall in real time, the difficult condition that blocks up that appears to handle the ash bits, make work efficiency high, safe and reliable has improved performance.

Description

A stirring feeding device for special engineering plastics

Technical Field

The invention relates to the technical field of plastic processing equipment, in particular to a stirring and feeding device for special engineering plastics.

Background

Engineering plastics can be used as engineering materials and plastics for replacing metal to manufacture machine parts and the like. The engineering plastic has excellent comprehensive performance, high rigidity, small creep, high mechanical strength, high heat resistance and high electric insulating property, may be used in harsh chemical and physical environment for long term, and may be used as engineering structure material to replace metal. Engineering plastics are widely used in the electronic, electrical and automotive industries, and when the engineering plastics are processed and produced, raw materials are firstly put into a bin and then conveyed from the interior of the bin to the next processing procedure for production.

At present, the stirring feeding device structure of current engineering plastics is too simple, and adaptability is poor, and the raw materials glues at the inner wall of feed bin, the condition of jam appears easily in unable timely clearance, and the ash bits that are not convenient for thoughtlessly in the raw materials are handled for it is more to contain impurity, and subsequent use of being not convenient for has reduced performance.

Disclosure of Invention

In order to realize the purpose, the invention is realized by the following technical scheme: a stirring and feeding device for special engineering plastics comprises a storage bin, wherein the central position inside the storage bin is rotationally connected with a driving rotary roller through a support, the surface of the driving rotary roller is fixedly connected with a stirring rod, one end, far away from the driving rotary roller, of the stirring rod is provided with a cleaning device, the top end of the driving rotary roller penetrates through the top of the inner wall of the storage bin and extends to the outside of the inner wall, the top of the storage bin is fixedly connected with a servo motor, the output end of the servo motor is fixedly connected with the top end of the driving rotary roller through a coupler, the surface of the storage bin is fixedly connected with a connecting pipeline, the surface of the storage bin, close to the bottom, is fixedly connected with a processing device, the connecting pipeline is used for communicating the storage bin and the processing device, the surface of the connecting pipeline, close to the processing device, is provided with a suction fan, one side of the top of the storage bin is fixedly connected with a feed hopper, the central position of the bottom of the storage bin is provided with a discharge hole, a driving rotary roller is driven to rotate by using a servo motor as power, a stirring rod rotates along with the stirring rod, a cleaning device rotates along with the stirring rod, raw materials to be treated are poured into the storage bin from a feed hopper, the stirring rod in rotation stirs the raw materials, the surface of the stirring rod is combined to be arc-shaped, the stirring rod is uniformly distributed on the surface of the driving rotary roller, so that the stirring is rapid and uniform, meanwhile, the cleaning device in rotation can clean the raw materials adhered to the inner wall of the storage bin in real time, a suction fan is used for absorbing gas in the storage bin, dust in the storage bin is sucked out by using air flow, the treatment device is used for treating, and the cleaning device and the treatment device interact with each other, so that the whole device can clean plastics adhered to the inner wall in real time, the condition of jam is difficult to appear to handle the ash bits, make work efficiency high, safe and reliable has improved performance.

Preferably, the surface of puddler sets up to the arc, puddler evenly distributed is on the surface of drive commentaries on classics roller, processing apparatus evenly distributed is on the surface of feed bin and be close to the bottom position.

Preferably, the cleaning device comprises a connecting substrate, the surface edge of the connecting substrate is located at the end of the end position and is connected with the stirring rod in a rotating mode, one side of the surface of the connecting substrate is close to the inner wall of the edge position fixedly connected with and scrapes teeth, the surface of the connecting substrate is fixedly connected with an arc elastic strip between two sides corresponding to the surfaces of the stirring rod, one side of the surface of the connecting substrate is far away from the inner wall and scrapes magnetic blocks, when the rotating stirring rod drives the cleaning device to integrally rotate, the inner wall scrapes the teeth to rotate along the inner wall of the storage bin, sticky raw materials on the inner wall of the storage bin are scraped, the raw materials are reduced in adhesion, the surface edge of the connecting substrate is used and located at the end of the end position and is connected with the end of the stirring rod in a rotating mode, under the elastic action of the arc elastic strip, the connecting substrate drives the inner wall to scrape the teeth to timely adjust the angle, the edge of the inner wall and the inner wall of the teeth to be tightly attached to the inner wall of the storage bin, meanwhile, the magnetic blocks and the magnetic balls on the knocking device are arranged to be like magnetic poles, so that the magnetic blocks and the magnetic balls collide with each other, the magnetic balls, the knocking balls, the magnetic blocks, the magnetic balls, the knocking balls are fully connected, the magnetic blocks, the knocking structure, the follow-up, the knocking function of the knocking structure is achieved, and the safety and the use is fully and the safety of the rotating structure is achieved, and the structure.

Preferably, the surface of the inner wall scraping teeth is an arc surface, and the arc elastic strips are uniformly distributed between the surface of the connecting substrate and the two corresponding sides of the surface of the stirring rod.

Preferably, processing apparatus includes the box, the side of box and the surface of feed bin just are close to bottom fixed position connection, the inside fixedly connected with filter screen of box, the surface of feed bin just is close to the position of filter screen and is provided with knocking device, knocking device is located the inside of box, the surface of filter screen is provided with cleaning device, the exhaust hole has been seted up to the bottom of box.

Preferably, the knocking device comprises a swinging connecting rod, the top end of the swinging connecting rod is rotatably connected with the surface of the bin, an elastic reset wire drawing is fixedly connected between the surface of the swinging connecting rod and the two corresponding sides of the surface of the bin, a balancing weight is fixedly connected with the bottom end of the swinging connecting rod, a knocking magnetic ball is fixedly connected with the surface of the balancing weight and one side close to the surface of the bin, a ball head ejecting part is fixedly connected with the surface of the balancing weight and one side far away from the knocking magnetic ball, negative pressure generated by a suction fan is utilized, dust in air in the bin and carried dust is absorbed through a connecting pipeline and is discharged into the box body, impurities are timely filtered by a filter screen under the driving of air flow, the air flow is discharged from an exhaust hole, and meanwhile, when the magnetic block is driven to rotate along with the connecting base plate, and a repulsive magnetic force is generated when the magnetic block meets the knocking magnetic ball, then the knocked magnetic ball is pushed to the outside by the magnetic block, the top end of the swinging connecting rod is rotatably connected with the surface of the storage bin, the swinging connecting rod drives the balancing weight, the knocking magnetic ball and the ball head ejector to rotate to the side far away from the surface of the storage bin, the elastic reset wire drawing is stretched, the cleaning device is pushed by the ball head ejector and rotates continuously along with the magnetic block, when the magnetic block is separated from the knocking magnetic ball, the repulsive magnetic force disappears, the swinging connecting rod drives the knocking magnetic ball to reset under the elastic force of the elastic reset wire drawing, the surface of the storage bin is knocked, the storage bin vibrates, the blocking situation is not easy to occur, and after the jacking force of the ball head ejector on the cleaning device disappears, the cleaning device cleans the filter screen, the deposition of dust is reduced, and the repulsive magnetic force is fully utilized, and the structures are connected together, so that multiple functions are realized, safety and reliability are realized, and the service performance is improved.

Preferably, the appearance of the swing connecting rod is set to be arc-shaped, and the elastic reset wire drawing is uniformly distributed between the surface of the swing connecting rod and the two sides corresponding to the surface of the storage bin.

Preferably, the cleaning device comprises an arc-shaped guide rod, the surface of the arc-shaped guide rod is in sliding connection with the filter screen, the bottom end of the arc-shaped guide rod is fixedly connected with a stress disc, tension springs are fixedly connected between the top end of the arc-shaped guide rod and two sides corresponding to the surface of the filter screen and positioned on the surface of the arc-shaped guide rod, the top end of the arc-shaped guide rod is fixedly connected with a support rod, the end part of the support rod is fixedly connected with an impact hammer, the surface of the impact hammer is fixedly connected with a flexible protective layer, after a ball head ejector applies ejection power to the stress disc on the cleaning device, the surface of the arc-shaped guide rod is in sliding connection with the filter screen, so that the support rod and the impact hammer are ejected by the arc-shaped guide rod, the tension springs are stretched, and the ejection force disappears along with the resetting of the ball head ejector, and under the elastic tension effect of extension spring, make the arc guide arm drive the bracing piece, the impact hammer resets, the impact hammer strikes the filter screen this moment, make the filter screen produce vibrations, make the debris that the filter screen filtered come drop, and then reduce the debris and adhere to the surface of deposit at the filter screen, and then can effectively prevent the condition of jam, help the filtration to debris, the material that utilizes flexible protective layer simultaneously sets up to the rubber material, good flexibility, can avoid the impact hammer to carry out the rigidity striking to the filter screen, the effect of buffering protection has been played, make the filter screen be difficult for appearing crooked or warping, the life on equipment ground has been prolonged, utilize interact between the structure, and ingenious with structural connection together, multiple functions have been realized, safety and reliability, service performance is improved.

The invention provides a stirring and feeding device for special engineering plastics. The method has the following beneficial effects:

1. this a stirring feeding device for special engineering plastics, through the feed bin, the roller is changeed in the drive, the puddler, cleaning device, servo motor, the connecting tube, processing apparatus, the suction fan, the feeder hopper, the bin outlet, utilize servo motor to change the roller drive as power with the drive and rotate, make the puddler along with rotating together, and under the drive of puddler, make cleaning device also along with rotating together, the raw materials that will handle this moment pour into the feed bin from the feeder hopper in, the puddler in the rotation stirs the raw materials this moment, and the surface that combines the puddler sets up to the arc, and puddler evenly distributed is on the surface of roller is changeed in the drive, make the stirring quick even, cleaning device in the rotation simultaneously can carry out real-time clearance to the sticky raw materials of feed bin inner wall, and utilize the suction fan to absorb the gas in the feed bin, utilize the air current to suck the interior ash bits of feed bin, and handle through processing apparatus, and utilize the interact between cleaning device and the processing apparatus, make whole device can in time to glue the plastics on the inner wall, the condition that the jam appears, and handle, and carry out the high safety and reliability, and reliability.

2. This a stirring feeding device for special engineering plastics, through cleaning device, the connection base plate, the tooth is scraped to the inner wall, arc elastic strip, the magnetic block, when the puddler in the rotation drives cleaning device wholly to rotate, the inner wall was scraped the tooth and is rotated along the inner wall of feed bin this moment, and then scrape the tooth to the raw materials of gluing on the feed bin inner wall, reduce gluing of raw materials, and utilize the surface edge of connection base plate and be located the tip rotation of tip position and puddler and be connected, and under the spring action of arc elastic strip, make the connection base plate drive the inner wall and scrape the tooth in time angle of adjustment, and then make the edge that the tooth was scraped to the inner wall closely laminate with the feed bin inner wall, and then promoted scraping adnexed raw materials on the feed bin inner wall, set up the magnetic block and the strike magnetic ball on the knocking device to the same name magnetic pole simultaneously, and then make the magnetic block produce the magnetic force that repels when striking the magnetic ball and meeting, and then help subsequent work of strikeing, make full use of self rotation, and link together the structure, safety and reliability, multiple functions have been realized, performance has been improved.

3. The stirring feeding device for the special engineering plastics comprises a processing device, a box body, a filter screen, a knocking device, a cleaning device, an exhaust hole swinging connecting rod, an elastic reset drawing wire, a balancing weight, a knocking magnetic ball and a ball head pushing piece, negative pressure generated by a suction fan is utilized, dust carried by air in the bin is sucked through a connecting pipeline, the dust is discharged into the box body, the air is driven by air flow, impurities are filtered by the filter screen in time, the air flow is exhausted from the exhaust hole, the magnetic block is driven to rotate along with a connecting substrate, repulsive force generated when the magnetic block meets the knocking magnetic ball is utilized, the knocked magnetic ball is further subjected to pushing force of the magnetic block, the top end of the swinging connecting rod is connected with the surface of the bin in a rotating mode, the swinging connecting rod drives the balancing weight, the knocking magnetic ball, the ball head pushing piece rotates towards one side far away from the surface, the elastic reset drawing wire is stretched, the cleaning device can receive the pushing force of the ball head pushing piece, the pushing piece and can continuously rotate along with the magnetic block, when the magnetic block is separated from the magnetic ball, the knocking magnetic ball, the repulsive force disappears, the elastic reset action of the elastic reset drawing wire, the elastic reset drawing wire can enable the cleaning ball to drive the pushing rod to drive the bin, the dust to safely disappear, and the dust of the bin, and the dust removing device can be removed, and the dust can be reliably generated after the dust removing function of the dust removing bin, and the dust removing device can be safely, and the dust removing device.

4. This a stirring feeding device for special engineering plastics, through cleaning device, the arc guide arm, the atress dish, the extension spring, the bracing piece, the impact hammer, flexible protective layer, after the bulb ejector piece applys top power to the atress dish on the cleaning device, and utilize sliding connection between the surface of arc guide arm and the filter screen, make the bracing piece, the impact hammer is by arc guide arm jack-up, and the extension spring receives the drawing, and along with the restoration of bulb ejector piece, the roof pressure disappears this moment, and under the elastic tension effect of extension spring, make the arc guide arm drive the bracing piece, the impact hammer resets, the impact hammer strikes the filter screen this moment, make the filter screen produce vibrations, make the debris that the filter screen filtered come off drop, and then reduce debris and adhere to the surface of deposit at the filter screen, and then can effectively prevent the condition of jam, help the filtration to debris, utilize the material of flexible protective layer to set up to the rubber material simultaneously, it is good to be flexible, can avoid the impact hammer to carry out rigid impact to the filter screen, the effect of buffering protection, make the filter screen appear crooked or warp, the life of equipment ground has been prolonged, utilize the interact between the structure, and the ingenious is in the same time, and the structure is in the same place, multiple functions of realizing, the safety and reliability, the service performance has improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic view of the cleaning apparatus according to the present invention;

FIG. 4 is a schematic view of a connection structure between the stirring rod and the cleaning device according to the present invention;

FIG. 5 is a schematic view of a processing apparatus according to the present invention;

FIG. 6 is a schematic view of the knocking device according to the present invention;

FIG. 7 is a schematic structural diagram of a cleaning apparatus according to the present invention.

In the figure: 1 stock bin, 2 driving rotating rollers, 3 stirring rods, 4 cleaning devices, 5 servo motors, 6 connecting pipelines, 7 processing devices, 8 suction fans, 9 feed hoppers, 10 discharge ports, 41 connecting substrates, 42 inner wall scraping teeth, 43 arc-shaped elastic strips, 44 magnetic blocks, 71 boxes, 72 filter screens, 73 knocking devices, 74 cleaning devices, 75 exhaust holes, 731 swinging connecting rods, 732 elastic resetting drawing wires, 733 balancing weights, 734 knocking magnetic balls, 735 ball head pushing parts, 741 arc-shaped guide rods, 742 stress discs, 743 tension springs, 744 supporting rods, 745 impact hammers and 746 flexible protective layers.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Example 1

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a stirring feeding device for special engineering plastics, including feed bin 1, the inside central point of feed bin 1 puts and is connected with the drive through the rotation of support and changes roller 2, the fixed surface of roller 2 is connected with puddler 3 is changeed in the drive, puddler 3 keeps away from the drive and changes roller 2's one end and be provided with cleaning device 4, the top of roller 2 is changeed in the drive runs through feed bin 1's inner wall top and extends to its outside, feed bin 1's top fixedly connected with servo motor 5, servo motor 5's output passes through shaft coupling and the drive and changes roller 2's top fixed connection, feed bin 1's fixed surface is connected with connecting tube 6, feed bin 1's surface just is close to bottom position fixedly connected with processing apparatus 7, connecting tube 6 communicates between feed bin 1 and processing apparatus 7, connecting tube 6's surface just is close to the position of processing apparatus 7 and is provided with suction fan 8, top one side fixedly connected with feeder hopper 9 of feed bin 1, the bottom central point of feed bin 1 puts and is provided with bin 10.

The surface of puddler 3 sets up to the arc, puddler 3 evenly distributed is changeed the surface of roller 2 in the drive, processing apparatus 7 evenly distributed is on the surface of feed bin 1 and is close to the bottom position, utilize servo motor 5 to change roller 2 drive as power with the drive and rotate, make puddler 3 along with rotating together, and under the drive of puddler 3, make cleaning device 4 also along with rotating together, pour the raw materials that will handle into feed bin 1 from feeder hopper 9 this moment, puddler 3 in the rotation stirs the raw materials this moment, and combine the surface of puddler 3 to set up to the arc, and puddler 3 evenly distributed is on the surface of drive commentaries on classics roller 2, make the stirring quick even, cleaning device 4 in the rotation simultaneously can clear up the sticky raw materials in real time of feed bin 1 inner wall, and utilize suction fan 8 to absorb the gas in feed bin 1, utilize the air current to carry out the suction of the ash in feed bin 1 this moment, and handle through processing apparatus 7, and utilize the interact between cleaning device 4 and processing apparatus 7, make whole device can glue in real time to clear up the clearance on the inner wall, the condition of the difficult plastics, and the difficult performance of stopping up, the high safety of processing has appeared, and has improved the performance, and has been difficult for plastics, the easy to the high efficiency of processing.

Example 2

Cleaning device 4 is including connection substrate 41, and connection substrate 41's surface edge just is located the tip rotation of tip position and puddler 3 and is connected, and connection substrate 41's surperficial one side just is close to marginal position fixedly connected with inner wall and scrapes tooth 42, and fixedly connected with arc elastic strip 43 between connection substrate 41 surface and the corresponding both sides in puddler 3 surface, connection substrate 41's surface just keeps away from one side fixedly connected with magnetic block 44 that tooth 42 was scraped to the inner wall.

The surface of the inner wall scraping teeth 42 is set to be an arc-shaped surface, the arc-shaped elastic strips 43 are uniformly distributed between the two corresponding sides of the surface of the connecting substrate 41 and the surface of the stirring rod 3, when the rotating stirring rod 3 drives the cleaning device 4 to rotate integrally, the inner wall scraping teeth 42 rotate along the inner wall of the storage bin 1 at the moment, and then raw materials adhered to the inner wall of the storage bin 1 are scraped with teeth, so that the adhesion of the raw materials is reduced, the surface edge of the connecting substrate 41 is utilized and is positioned at the end position to be connected with the end part of the stirring rod 3 in a rotating manner, and under the elastic action of the arc-shaped elastic strips 43, the connecting substrate 41 drives the inner wall scraping teeth 42 to adjust the angle in time, so that the edge of the inner wall scraping teeth 42 is tightly attached to the inner wall of the storage bin 1, and further the scraping of the raw materials adhered to the inner wall of the storage bin 1 is promoted, meanwhile, the magnetic blocks 44 and the knocking magnetic balls 734 on the knocking device 73 are set to be the same magnetic poles, and further the magnetic forces generated when the magnetic blocks 44 meet the magnetic balls 734, and the subsequent knocking work is facilitated.

Example 3

Processing apparatus 7 includes box 71, and the side of box 71 and the surface of feed bin 1 and be close to bottom position fixed connection, the inside fixedly connected with filter screen 72 of box 71, the surface of feed bin 1 and the position that is close to filter screen 72 are provided with knocking device 73, and knocking device 73 is located the inside of box 71, and the surface of filter screen 72 is provided with cleaning device 74, and exhaust hole 75 has been seted up to the bottom of box 71.

The knocking device 73 comprises a swinging connecting rod 731, the top end of the swinging connecting rod 731 is rotatably connected with the surface of the storage bin 1, an elastic reset wire 732 is fixedly connected between the surface of the swinging connecting rod 731 and the two corresponding sides of the surface of the storage bin 1, a balancing weight 733 is fixedly connected to the bottom end of the swinging connecting rod 731, a knocking magnetic ball 734 is fixedly connected to one side of the surface of the balancing weight 733, which is close to the surface of the storage bin 1, and a ball head pushing piece 735 is fixedly connected to one side of the surface of the balancing weight 733, which is far away from the knocking magnetic ball 734.

The appearance of the swing connecting rod 731 is set to be arc-shaped, the elastic reset drawn wires 732 are uniformly distributed between the surface of the swing connecting rod 731 and two sides corresponding to the surface of the bin 1, negative pressure generated by the suction fan 8 is utilized, dust carried by air in the bin 1 is sucked through the connecting pipeline 6 and is discharged into the box body 71, at the moment, under the driving of air flow, sundries are timely filtered by the filter screen 72, at the moment, the air flow is discharged from the exhaust hole 75, meanwhile, when the magnetic block 44 is driven to rotate along with the connecting substrate 41, repulsive magnetic force generated when the magnetic block 44 meets the knocking magnetic ball 734, then the knocked magnetic ball 734 is subjected to outward pushing force of the magnetic block 44, and the top end of the swing connecting rod 731 is rotatably connected with the surface of the bin 1, at the moment, the swing connecting rod 731 drives the balancing weight 733, the knocking magnetic ball 734, the ball head jacking piece 735 rotates to one side far away from the surface of the bin 1, the elastic reset drawn wires 732 stretch, the cleaning device 74 is subjected to jacking force of the ball head jacking piece 735, and the cleaning device 74 is not easy to remove the dust deposited on the surface of the knocking drawn wire, and the dust on the dust collecting bin 1, and the dust removing device 74, and the dust removing device after the dust removing device is driven by the elastic reset drawn by the ball jacking force generated by the knocking magnetic block 74, and the elastic reset drawn wire 732.

The cleaning device 74 comprises an arc-shaped guide rod 741, the surface of the arc-shaped guide rod 741 is slidably connected with the filter screen 72, the bottom end of the arc-shaped guide rod 741 is fixedly connected with a stressed disc 742, the top end of the arc-shaped guide rod 741 is fixedly connected with a tension spring 743 between two sides corresponding to the surface of the filter screen 72 and positioned on the surface of the arc-shaped guide rod 741, the top end of the arc-shaped guide rod 741 is fixedly connected with a support rod 744, the end of the support rod 744 is fixedly connected with an impact hammer 745, the surface of the impact hammer 745 is fixedly connected with a flexible protective layer 746, after the ball head ejector 735 applies ejection force to the stressed disc 742 on the cleaning device 74, the support rod 744 and the impact hammer 745 are pushed up by the arc-shaped guide rod 741 through the sliding connection between the surface of the arc-shaped guide rod 741, the tension spring 743 is stretched, the impact force disappears along with the resetting of the ball head ejector 735, and the arc-shaped guide rod 741 drives the support rod 744 and the hammer 745 to reset under the action of the elastic tension force of the tension spring 743, the arc-shaped guide rod 741, so that the filter screen 72 vibrates, the filter screen 72, the impurities filtered by the filter screen 72 fall off, the impurities can be prevented from being attached to the filter screen 72, and the blocking situation can be effectively prevented.

When the dust collector is used, the whole device is fixed to a specified position, the driving roller 2 is driven to rotate by using the servo motor 5 as power, the stirring rod 3 rotates along with the driving roller 3, the cleaning device 4 also rotates along with the driving roller 3, raw materials to be processed are poured into the storage bin 1 from the feed hopper 9, the stirring rod 3 in rotation stirs the raw materials, the surface of the stirring rod 3 is set to be arc-shaped, the stirring rod 3 is uniformly distributed on the surface of the driving roller 2, so that the stirring is rapid and uniform, when the cleaning device 4 is integrally driven to rotate by the rotating stirring rod 3, the inner wall scraping teeth 42 rotate along the inner wall of the storage bin 1, the raw materials adhered to the inner wall of the storage bin 1 are scraped, the adhesion of the raw materials is reduced, the end part of the stirring rod 3 is rotatably connected with the surface edge of the connecting substrate 41 in the end part, the connecting substrate 41 drives the inner wall scraping teeth 42 to adjust the angle in time under the elastic action of the arc-shaped elastic strip 43, the edge of the scraping teeth 42 is further to be closely attached to the inner wall of the magnetic suction ball 734, the magnetic suction ball 72 is arranged to drive the magnetic suction ball to knock the magnetic suction ball 72 in the storage bin 1, and the magnetic suction ball 72, the magnetic suction ball 14 is arranged to suck dust-suction block to suck the dust into the dust-suction block in the storage bin 1, and the storage bin, and the dust-suction unit, the dust-suction unit 44, and the repulsive magnetic force is generated when the magnetic block 44 meets the knocking magnetic ball 734, the knocked magnetic ball 734 is pushed by the magnetic block 44 to the outside, the top end of the swinging connecting rod 731 is rotatably connected with the surface of the bin 1, at this time, the swinging connecting rod 731 drives the balancing weight 733, the knocking magnetic ball 734 and the ball head ejector 735 rotate to the side far away from the surface of the bin 1, and the elastic reset wire 732 stretches, the cleaning device 74 is pushed by the ball head ejector, and along with the continuous rotation of the magnetic block 44, when the magnetic block 44 is separated from the knocking magnetic ball 734, the repulsive magnetic force disappears, and under the elastic force of the elastic reset wire 732, the swinging connecting rod 731 drives the knocking magnetic ball 734 to reset, so as to knock the surface of the bin 1, so that the bin 1 vibrates, the blockage situation is not easy to occur, and after the jacking force of the lifting piece 735 to the cleaning device 74 disappears, the cleaning device 74 cleans the filter screen 72, so as to reduce dust deposition, and when the pushing force of the ball head 735 to the cleaning device 74 exerts a force to impact the arc-shaped disc 742, and the filter screen 72 is pushed by the tensile force of the tensile spring 745, the filter screen 745 and the filter screen 72 is reduced, the filter screen 741 is reduced by the drag spring 745, and the structures are skillfully connected together, so that multiple functions are realized, safety and reliability are realized, and the service performance is improved.

It should be apparent that the described embodiments are only some of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by one of ordinary skill in this and related arts based on the embodiments of the present invention without creative efforts, shall fall within the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are not specifically illustrated or described, but are instead contemplated to be practiced in the art by those skilled in the art.

Claims (8)

1. The utility model provides a stirring feeding device for special engineering plastics, includes feed bin (1), its characterized in that: the utility model discloses a processing apparatus, including feed bin (1), roller (2), puddler (3), top fixedly connected with connecting tube (6), top fixedly connected with servo motor (5) of feed bin (1), the top fixedly connected with servo motor (5) of servo motor (5) passes through the shaft coupling and drives the top fixedly connected with of changeing roller (2), the fixed surface of feed bin (1) is connected with connecting tube (8), the top one side fixedly connected with (9) of feed bin (1), the bottom central point of feed bin (1) puts and is provided with feed hopper (10) through the support rotation connection with the drive commentaries on classics roller (2), the drive changes the top of roller (2) and runs through the inner wall top of feed bin (1) and extends to its outside, the top fixedly connected with servo motor (5) of feed bin (1), the output of servo motor (5) passes through the shaft coupling and drives the top fixed connection who changes roller (2), the fixed surface of feed bin (1) is connected with connecting tube (6), the position that the surface of connecting tube (6) just is close to processing apparatus (7) is provided with suction fan (8), top one side fixedly connected with (9) of feed bin (1).

2. The stirring and feeding device for special engineering plastics as claimed in claim 1, wherein: the surface of puddler (3) sets up to the arc, puddler (3) evenly distributed is changeing the surface of roller (2) in the drive, processing apparatus (7) evenly distributed just is close to the bottom position on the surface of feed bin (1).

3. The stirring and feeding device for special engineering plastics as claimed in claim 1, wherein: cleaning device (4) are including connecting substrate (41), the surface edge of connecting substrate (41) just is located the tip rotation of tip position and puddler (3) and is connected, the surface one side of connecting substrate (41) just is close to marginal position fixedly connected with inner wall and scrapes tooth (42), fixedly connected with arc elastic strip (43) between the corresponding both sides in connecting substrate (41) surface and puddler (3) surface, the surface of connecting substrate (41) just keeps away from one side fixedly connected with magnetic block (44) that the tooth (42) were scraped to the inner wall.

4. The stirring and feeding device for special engineering plastics, as claimed in claim 3, is characterized in that: the surface of the inner wall scraping teeth (42) is set to be an arc-shaped surface, and the arc-shaped elastic strips (43) are uniformly distributed between the surface of the connecting base plate (41) and the two sides corresponding to the surface of the stirring rod (3).

5. The stirring and feeding device for special engineering plastics, as claimed in claim 1, is characterized in that: processing apparatus (7) include box (71), the side of box (71) and the surface of feed bin (1) and be close to bottom position fixed connection, the inside fixedly connected with filter screen (72) of box (71), the surface of feed bin (1) and the position that is close to filter screen (72) are provided with knocking device (73), knocking device (73) are located the inside of box (71), the surface of filter screen (72) is provided with cleaning device (74), exhaust hole (75) have been seted up to the bottom of box (71).

6. The stirring and feeding device for special engineering plastics, as claimed in claim 5, is characterized in that: knocking device (73) is including swing connecting rod (731), the top of swing connecting rod (731) is rotated with the surface of feed bin (1) and is connected, fixed connection elasticity wire drawing (732) that resets between swing connecting rod (731) surface and the corresponding both sides in feed bin (1) surface, the bottom fixedly connected with balancing weight (733) of swing connecting rod (731), the surface of balancing weight (733) just is close to one side fixedly connected with on feed bin (1) surface and strikes magnetic ball (734), the surface of balancing weight (733) just keeps away from one side fixedly connected with bulb top moving piece (735) of striking magnetic ball (734).

7. An agitation and charging device for special engineering plastics according to claim 6, characterized in that: the appearance of the swing connecting rod (731) is arc-shaped, and the elastic reset drawn wires (732) are uniformly distributed between the surface of the swing connecting rod (731) and two sides corresponding to the surface of the storage bin (1).

8. The stirring and feeding device for special engineering plastics, as claimed in claim 5, is characterized in that: cleaning device (74) includes arc guide arm (741), sliding connection between the surface of arc guide arm (741) and filter screen (72), the bottom fixedly connected with atress dish (742) of arc guide arm (741), the surperficial fixedly connected with extension spring (743) that just is located arc guide arm (741) between the corresponding both sides in arc guide arm (741) top and filter screen (72) surface, the top fixedly connected with bracing piece (744) of arc guide arm (741), the tip fixedly connected with striking hammer (745) of bracing piece (744), the surperficial fixedly connected with flexible protective layer (746) of striking hammer (745).

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