CN212263112U - Mixing arrangement of additive for plastics processing - Google Patents

Mixing arrangement of additive for plastics processing Download PDF

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Publication number
CN212263112U
CN212263112U CN202020664511.4U CN202020664511U CN212263112U CN 212263112 U CN212263112 U CN 212263112U CN 202020664511 U CN202020664511 U CN 202020664511U CN 212263112 U CN212263112 U CN 212263112U
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screening
agitator
wall
gear
spiro union
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CN202020664511.4U
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Chinese (zh)
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翟彬
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Anhui Haosen New Material Technology Co ltd
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Anhui Haosen New Material Technology Co ltd
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Abstract

The utility model belongs to the technical field of plastic processing, especially, mixing arrangement of additive for plastic processing, including the agitator, the top spiro union of agitator has the stirring bung, the top spiro union of stirring bung has agitator motor, agitator motor's output shaft and the top fixed connection of (mixing) shaft, the outer wall integrated into one piece of (mixing) shaft has stirring vane, the diapire of agitator has been link up there is the agitator discharge gate, the bottom and the first solenoid valve fixed connection of agitator discharge gate, the bottom spiro union of agitator has the screening storehouse, the inner diapire spiro union in screening storehouse has the sieve support column, the top joint of sieve support column is in the inner ring of bearing frame, the roof spiro union of bearing frame has the screening board, the inner wall in screening storehouse is opened there is sieve teeth of a cogwheel holding tank, sieve teeth of a cogwheel holding tank holds the teeth of a cogwheel of screening board, this device has and avoids not thorough and, The influence of insufficient mixing caused by caking in the stirring process on the use effect is characterized.

Description

Mixing arrangement of additive for plastics processing
Technical Field
The utility model belongs to the technical field of plastic processing, more specifically relates to a mixing arrangement of additive for plastic processing.
Background
Plastic products are a general name of living, industrial and other articles processed by adopting plastics as main raw materials, the plastics, synthetic rubber and synthetic fiber form three indispensable synthetic materials in daily life, specifically, the plastics take natural or synthetic resin as main components, various additives are added, the plastics can be molded into a certain shape under certain conditions such as certain temperature and pressure, the shape of the plastics can be kept unchanged at normal temperature, various additives are required to be added in the processing process of the plastic products, a pulverizer is required to be used for pulverizing the additives before the additives are added, and then different additives are fully mixed by using a stirring and mixing device.
The problems existing in the prior art are as follows:
the pulverizer often can not accomplish hundred percent crushing to the crushing in-process of additive, and the additive caking phenomenon still takes place easily in transportation and mixing process, and the additive that does not smash completely and take place the caking often is difficult to carry out intensive mixing with other additives in the stirring in-process, if these bigger not intensive mixing of size additive get into next production line along with qualified additive together, can influence processing result of use inevitably.
SUMMERY OF THE UTILITY MODEL
To solve the problems set forth in the background art described above. The utility model provides a mixing arrangement of additive for plastics processing has the characteristics of avoiding because of the additive smashes in rubbing crusher thoroughly and takes place the insufficient influence to the result of use of mixing that the caking caused in transportation, stirring process.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a mixing arrangement of additive for plastics processing, includes the agitator, the top spiro union of agitator has the stirring bung, the top spiro union of stirring bung has agitator motor, agitator motor's output shaft and the top fixed connection of (mixing) shaft, the outer wall integrated into one piece of (mixing) shaft has stirring vane, the top of stirring bung link up and the spiro union has the feeder hopper, the diapire of agitator link up has the agitator discharge gate, the bottom and the first solenoid valve fixed connection of agitator discharge gate, the bottom spiro union of agitator has the screening storehouse, the interior diapire spiro union of screening storehouse has the sieve support column, the top joint of sieve support column is in the inner ring of bearing frame, the roof spiro union of bearing frame has the screening board, the even car of the lateral wall of screening board has the teeth of a cogwheel, the teeth of a cogwheel and gear engagement of screening board, the inner ring of gear cup joints in the outer wall of gear shaft, bearing joint in the roof and the diapire in gear storehouse are passed through to gear shaft's top and bottom, gear shaft's bottom and the output shaft fixed connection of screening motor, the inner wall in screening storehouse is opened there is sieve teeth of a cogwheel holding tank, sieve teeth of a cogwheel holding tank holds the teeth of a cogwheel of screening board, the lateral wall all link up and the spiro union has the side to arrange the material pipe about the screening storehouse, the mouth of pipe that the material pipe was arranged to the side has the baffle through the articulated elements is articulated, the diapire in screening storehouse link up and integrated into one piece has the bottom to arrange the material pipe, the bottom and the second solenoid valve fixed connection of the material pipe are arranged to.
Preferably, the inner walls of the stirring barrel and the screening bin are coated with corrosion-resistant coatings and wear-resistant coatings.
Preferably, the screening plate is conical, and screening holes are uniformly distributed between the top wall and the bottom wall of the screening plate in a penetrating manner.
Preferably, be equipped with the rubber strip between the top cell wall of sieve teeth of a cogwheel holding tank and bottom cell wall and the screening board.
Preferably, a lifting lug is welded at the top of the stirring barrel cover.
Preferably, the bottom of the screening bin is in threaded connection with a bottom supporting column.
Compared with the prior art, the beneficial effects of the utility model are that:
the operation of the stirring motor drives the stirring shaft to rotate together with the stirring blades, the additive is poured into the stirring barrel through the feeding hopper, the additive is stirred through the stirring blades, the screening motor is opened after the stirring is finished, the operation of the screening motor drives the gear to rotate through the gear rotating shaft, the gear rotates and simultaneously drives the screening plate to rotate by taking the bearing seat and the screen plate supporting column as the circle center through the gear teeth, the first electromagnetic valve and the second electromagnetic valve are opened, the additive in the stirring barrel is discharged into the screening bin through the discharging port of the stirring barrel, the screening is carried out along with the rotation of the screening plate, the additive particles which accord with the mesh size of the screening plate fall below the screening plate through the mesh and are discharged through the bottom discharging pipe for normal use of plastic production, when the qualified additive is discharged, the baffle is opened, and the additive with larger particles or the agglomerated additive is discharged from the side discharging pipe, and the additive is conveyed to the crusher by using a conveying tool for further crushing, so that the influence of insufficient mixing on the processing and using effects caused by incomplete crushing of the additive in the crusher and caking in the conveying and stirring processes is avoided.
The parts of the device not involved are the same as or can be implemented using prior art.
Drawings
The above and other objects, features and advantages of the present invention will become more apparent by describing in more detail exemplary embodiments thereof with reference to the attached drawings, in which like reference numerals generally represent like parts throughout the exemplary embodiments of the present invention.
Fig. 1 is a schematic sectional structure of the present invention;
fig. 2 is the structure diagram of the gear chamber of the present invention.
In the figure: 100 stirring barrels, 110 stirring barrel covers, 111 feed hoppers, 112 lifting lugs, 120 stirring barrel discharge ports, 200 stirring motors, 300 stirring shafts, 310 stirring blades, 410 first electromagnetic valves, 420 second electromagnetic valves, 500 screening bins, 510 screening deck support columns, 520 bearing seats, 530 screening plates, 540 gears, 541 gear rotating shafts, 550 gear bins, 560 screening motors, 570 screening deck gear tooth accommodating tanks, 580 side discharge pipes, 581 baffles, 590 bottom discharge pipes and 600 bottom support columns.
Detailed Description
Preferred embodiments of the present invention will be described in more detail below. While the following describes preferred embodiments of the present invention, it should be understood that the present invention may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.
Example 1
Referring to fig. 1-2, the present invention provides the following technical solutions: the utility model provides a mixing arrangement of additive for plastics processing, includes agitator 100, the top spiro union of agitator 100 has stirring bung 110, the top spiro union of stirring bung 110 has agitator motor 200, agitator motor 200's output shaft and the top fixed connection of (mixing) shaft 300, the outer wall integrated into one piece of (mixing) shaft 300 has stirring vane 310, the top of stirring bung 110 link up and the spiro union has feeder hopper 111, agitator 100's diapire has link up agitator discharge gate 120, the bottom and the first solenoid valve 410 fixed connection of agitator discharge gate 120, the bottom spiro union of agitator 100 has screening storehouse 500, the inner bottom wall spiro union of screening storehouse 500 has sieve support column 510, the top joint of sieve support column 510 is in the inner ring of bearing frame 520, the roof spiro union of bearing frame 520 has screening board 530, the even car of the lateral wall of screening board 530 has the teeth of a cogwheel, the teeth of a cogwheel and the meshing of gear 540 of screening board 530, the inner ring cover of gear 540 connects in gear rotating shaft 541's outer wall, gear rotating shaft 541's top and bottom are passed through the bearing joint in gear storehouse 550's roof and diapire, gear rotating shaft 541's bottom and screening motor 560's output shaft fixed connection, screening storehouse 500's inner wall is opened has sieve plate teeth of a cogwheel holding tank 570, sieve plate teeth of a cogwheel holding tank 570 holds the teeth of a cogwheel of screening board 530, the lateral wall all link up and the spiro union has the side to be arranged material pipe 580 about screening storehouse 500, the mouth of pipe of the side to arrange material pipe 580 articulates through the articulated piece has baffle 581, the diapire of screening storehouse 500 link up and integrated into one piece has bottom to arrange material pipe 590, the bottom of the bottom row material pipe 590 and second solenoid valve.
In this embodiment: the top of the stirring barrel 100 is screwed with a stirring barrel cover 110, the top of the stirring barrel cover 110 is screwed with a stirring motor 200, an output shaft of the stirring motor 200 is fixedly connected with the top of the stirring shaft 300, the outer wall of the stirring shaft 300 is integrally formed with a stirring blade 310, the stirring motor 200 is used for driving the stirring shaft 300 and the stirring blade 310 to rotate, the additive is stirred by the stirring blade 310, the top of the stirring barrel cover 110 is communicated and screwed with a feed hopper 111, the feed hopper 111 is used for adding the additive into the stirring barrel 100, the bottom wall of the stirring barrel 100 is communicated with a stirring barrel discharge port 120, the additive in the stirring barrel 100 is discharged into a screening bin 500 through the stirring barrel discharge port 120, the bottom of the stirring barrel discharge port 120 is fixedly connected with a first electromagnetic valve 410, the first electromagnetic valve 410 is fixedly connected for controlling the discharge of the stirring barrel 100, the bottom of the stirring barrel 100 is screwed with the screening bin 500, the top of the sieve plate support column 510 is clamped in the inner ring of the bearing seat 520, the top wall of the bearing seat 520 is screwed with the sieve plate 530, the side wall of the sieve plate 530 is evenly provided with gear teeth, the gear teeth of the sieve plate 530 are meshed with the gear 540, the inner ring of the gear 540 is sleeved on the outer wall of the gear rotating shaft 541, the top and the bottom of the gear rotating shaft 541 are clamped in the top wall and the bottom wall of the gear bin 550 through bearings, the bottom of the gear rotating shaft 541 is fixedly connected with the output shaft of the sieve motor 560, the operation of the sieve motor 560 drives the gear 540 to rotate through the gear rotating shaft 541, the gear 540 drives the sieve plate 530 to rotate by taking the bearing seat 520 and the sieve plate support column 510 as the circle center through the gear teeth while rotating, the additive is sieved along with the rotation of the sieve plate 530, the inner wall of the sieve plate gear teeth holding tank 570 is provided with sieve plate gear teeth holding tank 500, the left side wall and, the pipe orifice of the side discharging pipe 580 is hinged with a baffle plate 581 through a hinge joint, the bottom wall of the screening bin 500 is penetrated and integrally formed with a bottom discharging pipe 590, the bottom of the bottom discharging pipe 590 is fixedly connected with a second electromagnetic valve 420, and the second electromagnetic valve 420 is used for controlling the discharge of the additive in the screening bin 500.
Specifically, the inner walls of the stirring barrel 100 and the screening bin 500 are coated with corrosion-resistant coatings and wear-resistant coatings, so that corrosion and wear are reduced.
Specifically, screening board 530 is conical, and the screening effect is better than horizontal sieve effect, and it has the sieve mesh to evenly link up the distribution between the roof of screening board 530 and the diapire, and the sieve mesh is used for screening the additive that the granule size is suitable.
Specifically, be equipped with the rubber strip between sieve teeth of a cogwheel holding tank 570's top cell wall and bottom cell wall and sieve plate 530, prevent that the additive from spilling.
Specifically, a lifting lug 112 is welded at the top of the stirring barrel cover 110, and the lifting lug 112 is used for being matched with a lifting appliance to facilitate lifting the stirring barrel cover for maintenance and replacement.
Specifically, the bottom of the screening bin 500 is screwed with a bottom support column 600, and the bottom support column 600 is used for supporting the device.
The working principle and the using process of the invention are as follows: the stirring motor 200 is turned on by a switch, the stirring motor 200 drives the stirring shaft 300 and the stirring blade 310 to rotate, the additive is poured into the stirring barrel 100 through the feed hopper 111, the additive is stirred through the stirring blade 310, the sieving motor 560 is turned on after the stirring is finished, the operation of the sieving motor 560 drives the gear 540 to rotate through the gear rotating shaft 541, the gear 540 drives the sieving plate 530 to rotate through the gear teeth while rotating around the bearing seat 520 and the sieve plate support column 510, the first electromagnetic valve 410 and the second electromagnetic valve 420 are turned on, the additive in the stirring barrel 100 is discharged into the sieving bin 500 through the stirring barrel discharge port 120, the sieving is carried out along with the rotation of the sieving plate 530, the additive particles according with the sieve mesh size of the sieving plate 530 fall below the sieving plate 530 through the sieve mesh and are discharged through the bottom discharge pipe 590, when the qualified additive is discharged, the baffle 581 is turned on, the larger particles of additive or agglomerated additive are discharged from the side discharge pipe 580 and transported to a pulverizer for further pulverization using a transport means.
The foregoing description of the embodiments of the invention has been presented for purposes of illustration and not limitation, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the illustrated embodiments.

Claims (6)

1. A mixing arrangement of additive for plastics processing which characterized in that: including agitator (100), the top spiro union of agitator (100) has stirring barrel lid (110), the top spiro union of stirring barrel lid (110) has agitator motor (200), the output shaft of agitator motor (200) and the top fixed connection of (mixing) shaft (300), the outer wall integrated into one piece of (mixing) shaft (300) has stirring vane (310), the top of stirring barrel lid (110) link up and the spiro union has feeder hopper (111), the diapire of agitator (100) has link up agitator discharge gate (120), the bottom and the first solenoid valve (410) fixed connection of agitator discharge gate (120), the bottom spiro union of agitator (100) has screening storehouse (500), the inner diapire spiro union of screening storehouse (500) has sieve support column (510), the top joint of sieve support column (510) is in the inner ring of bearing frame (520), the roof spiro union of bearing frame (520) has screening board (530), the side wall of the screening plate (530) is uniformly provided with gear teeth, the gear teeth of the screening plate (530) are meshed with the gear (540), the inner ring of the gear (540) is sleeved on the outer wall of the gear rotating shaft (541), the top and the bottom of the gear rotating shaft (541) are clamped on the top wall and the bottom wall of the gear bin (550) through bearings, the bottom of the gear rotating shaft (541) is fixedly connected with an output shaft of the screening motor (560), the inner wall of the screening bin (500) is provided with a sieve plate gear tooth accommodating groove (570), the sieve plate gear tooth accommodating groove (570) accommodates gear teeth of the screening plate (530), the left side wall and the right side wall of the screening bin (500) are both communicated and are in threaded connection with a side discharge pipe (580), the mouth of the side discharge pipe (580) is hinged with a baffle (581) through a hinge, the bottom wall of the screening bin (500) is communicated and integrally formed with a bottom discharge pipe (590), the bottom of the bottom discharge pipe (590) is fixedly connected with a second electromagnetic valve (420).
2. A mixing device for additives for plastics processing according to claim 1, characterized in that: the inner walls of the stirring barrel (100) and the screening bin (500) are coated with corrosion-resistant coatings and wear-resistant coatings.
3. A mixing device for additives for plastics processing according to claim 1, characterized in that: the screening plate (530) is conical, and screening holes are uniformly distributed between the top wall and the bottom wall of the screening plate (530) in a penetrating manner.
4. A mixing device for additives for plastics processing according to claim 1, characterized in that: rubber strips are arranged between the top groove wall and the bottom groove wall of the sieve plate gear tooth accommodating groove (570) and the sieving plate (530).
5. A mixing device for additives for plastics processing according to claim 1, characterized in that: the top of the stirring barrel cover (110) is welded with a lifting lug (112).
6. A mixing device for additives for plastics processing according to claim 1, characterized in that: the bottom of the screening bin (500) is in threaded connection with a bottom supporting column (600).
CN202020664511.4U 2020-04-27 2020-04-27 Mixing arrangement of additive for plastics processing Active CN212263112U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020664511.4U CN212263112U (en) 2020-04-27 2020-04-27 Mixing arrangement of additive for plastics processing

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020664511.4U CN212263112U (en) 2020-04-27 2020-04-27 Mixing arrangement of additive for plastics processing

Publications (1)

Publication Number Publication Date
CN212263112U true CN212263112U (en) 2021-01-01

Family

ID=73885272

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202020664511.4U Active CN212263112U (en) 2020-04-27 2020-04-27 Mixing arrangement of additive for plastics processing

Country Status (1)

Country Link
CN (1) CN212263112U (en)

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