CN110653963A - Plastic particle processing machine capable of drying and screening materials - Google Patents

Abstract

The invention provides a plastic particle processing machine capable of drying and screening materials, which structurally comprises an air guide pipe, an upper sealing cover, a drying and screening mechanism, a processing mechanism, a thermometer, a control electric box and an air heater, wherein the upper part of the air guide pipe is mechanically connected with the air heater, the vibration and screening mechanism is arranged, when plastic particles fall onto a second screening net on the vibration and screening mechanism, the second screening net is vibrated through a vibrator so as to drive an outer support ring at the outer ring of the second screening net to vibrate on a buffer seat, so that the particles of the plastic particles which are directly smaller than the aperture of the second screening net directly fall onto a flow guide frame under vibration, thereby effectively screening the plastic particles without subsequent screening, a processing device is arranged, a rotating motor is started to drive the rotating shaft rod to rotate, a processing knife on the rotating shaft rod is used for processing large-particle plastics to reach the standard so as to process the large-particle plastics into particles, therefore, the plastic particles can be effectively processed without being processed in the later period.

Description

Plastic particle processing machine capable of drying and screening materials

Technical Field

The invention relates to the technical field of plastic processing, in particular to a plastic particle processing machine capable of drying and screening materials.

Background

When preserving plastic granules usually, all need dry it earlier, then preserve it to can avoid at the in-process of preserving, plastic granules is decomposed by steam tide, influences follow-up processing to plastic granules and dissolves, but prior art has following defect:

after drying the plastic granules, when packing it, because the size of granule is different to need to sieve it through other equipment, and after the screening, still need convert other equipment and carry out processing once more to it, make it reach the required size of packing.

Summary of the invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a plastic particle processing machine capable of drying and screening materials, which solves the problems that after plastic particles are dried and packaged, the plastic particles need to be screened by other equipment due to different sizes of the particles, and after the screening is finished, other equipment needs to be converted for processing the plastic particles again, so that the plastic particles reach the required size of the package.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a plastic granules processing machine that can dry by fire material screening, its structure includes air duct, last closing cap, stoving screening mechanism, processing agency, thermometer, control electronic box, air heater, the air duct top is connected with air heater machinery, the control electronic box is installed in the air duct front end, the thermometer is installed on the air duct, the air duct with dry screening mechanism intercommunication, go up closing cap and stoving screening mechanism hinged joint, stoving screening mechanism and processing agency intercommunication each other, stoving screening mechanism includes screening room, vibration screening mechanism, control switch, heater, screening room internally mounted in the heater, control switch installs in screening outdoor side, vibration screening mechanism is located screening room inside and is connected through the electric welding.

Preferably, the screening chamber comprises a first screening net, a shell, a flow guide frame, an inlet hole and a large-particle outlet hole, the first screening net is welded with the inside of the shell, the shell is installed below the inside of the flow guide frame, the shell and the inlet hole are of an integrated structure, the shell and the large-particle outlet hole are of an integrated structure, and an included angle of 15 degrees is formed between the first screening net and the upper sealing cover.

Preferably, the vibration screening mechanism comprises a second screening net, vibrators, an outer support ring and buffer bases, the second screening net is arranged on the inner side of the outer support ring and welded through electric welding, the vibrators are arranged in the middle of the second screening net, the buffer bases are four in number and welded to four corners of the outer support ring respectively, the outer support ring is of a circular ring structure, and 20-degree included angles are formed between the second screening net and the upper sealing cover.

Preferably, the processing mechanism comprises a rotating motor, a processing device, an outer cover, a first heat preservation layer and a storage chamber, the rotating motor is installed above the processing device, the first heat preservation layer is arranged between the storage chamber and the outer cover, the processing device is located on the left side of the storage chamber, and the outer cover is of a hollow cuboid structure.

Preferably, the processing device comprises a rotating shaft rod, a processing chamber, a processing cutter, a second heat insulation layer, a bearing seat and a connecting pipe, the rotating shaft rod is embedded and installed on the bearing seat, the rotating shaft rod is fixedly connected with the processing cutter, the processing chamber is embedded and installed on the inner side of the second heat insulation layer, the lower end of the bearing seat is welded with the lower end of the processing chamber, the lower end of the connecting pipe is embedded and installed at the upper end of the processing chamber, and the processing chamber is of a hollow cylindrical structure.

(III) advantageous effects

The invention provides a plastic particle processing machine capable of drying and screening materials. The method has the following beneficial effects:

1. according to the invention, by arranging the vibration screening mechanism, when plastic particles fall onto the second screening net on the vibration screening mechanism, the vibrator vibrates the second screening net so as to drive the outer support ring on the outer ring of the second screening net to vibrate on the buffer seat, so that the particles of the plastic particles which are directly smaller than the aperture of the second screening net directly fall onto the flow guide frame under vibration, and thus, the plastic particles can be effectively screened without being screened subsequently.

2. According to the invention, the processing device is arranged, the rotating motor is started to drive the rotating shaft rod to rotate, and the processing cutter on the rotating shaft rod is used for processing large-particle plastics to enable the large-particle plastics to be processed into up-to-standard particles, so that the plastic particles can be effectively processed without being processed at a later stage.

Drawings

FIG. 1 is a schematic diagram of a bakeable material sifting machine for processing plastic granules in accordance with the present invention;

FIG. 2 is a schematic front view of the drying and screening mechanism and the processing mechanism of the present invention;

FIG. 3 is a schematic front view of the screening chamber of the present invention;

FIG. 4 is a front view of the vibratory screening mechanism of the present invention;

fig. 5 is a front view of the processing machine of the present invention.

In the figure: a gas guide pipe-1, an upper seal cover-2, a drying and screening mechanism-3, a processing mechanism-4, a thermometer-5, a control electric box-6, a hot air blower-7, a screening chamber-31, a vibration screening mechanism-32, a control switch-33, a heater-34, a first screening net-311, a shell-312, a guide frame-313, an inlet hole-314, a large particle outlet hole-315, a second screening net-321, a vibrator-322, an outer frame ring-323, a buffer seat-324, a rotating motor-41, a processor-42, an outer cover-43, a first heat preservation layer-44, a storage chamber-45, a rotating shaft rod-421, a processing chamber-422, a processing knife-423, a second heat preservation layer-424, a bearing seat-425, a temperature meter-5, Connecting tube-426.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, an embodiment of the present invention provides a plastic pellet processing machine capable of sieving drying materials, the structure comprises an air duct 1, an upper sealing cover 2, a drying and screening mechanism 3, a processing mechanism 4, a thermometer 5, a control electric box 6 and a hot air blower 7, the upper part of the air duct 1 is mechanically connected with an air heater 7, the control electric box 6 is arranged at the front end of the air duct 1, the thermometer 5 is arranged on the air duct 1, the air duct 1 is communicated with the drying and screening mechanism 3, the upper sealing cover 2 is hinged with the drying and screening mechanism 3, the drying and screening mechanism 3 is communicated with the processing mechanism 4, the drying and screening mechanism 3 comprises a screening chamber 31, a vibration screening mechanism 32, a control switch 33 and a heater 34, the screening chamber 31 is internally installed on the heater 34, the control switch 33 is installed outside the screening chamber 31, and the vibration screening mechanism 32 is located inside the screening chamber 31 and connected through electric welding.

The screening chamber 31 comprises a first screening net 311, a shell 312, a flow guide frame 313, an inlet hole 314 and a large-particle outlet hole 315, the first screening net 311 is welded with the inside of the shell 312, the shell 312 is installed below the flow guide frame 313, the shell 312 and the inlet hole 314 are in an integrated structure, the shell 312 and the large-particle outlet hole 315 are in an integrated structure, a 15-degree included angle is formed between the first screening net 311 and the upper sealing cover 2, when plastic particles are dried, the plastic particles slowly fall to the left side of the first screening net 311, the plastic particles slowly roll to the right side, and when the plastic particles roll, the heater 34 dries the plastic particles, so that auxiliary drying of the plastic particles can be effectively performed.

The vibrating screening mechanism 32 includes a second screening net 321, a vibrator 322, an outer bracket ring 323 and four buffer seats 324, the second screening net 321 is installed inside the outer bracket ring 323 and welded by electric welding, the vibrator 322 is installed in the middle of the second screening net 321, the buffer seats 324 are four in number and welded to four corners of the outer bracket ring 323, the outer bracket ring 323 is in a circular structure, and an included angle of 20 degrees is formed between the second screening net 321 and the upper sealing cover 2, when plastic particles fall from the first screening net 311 to the second screening net 321, the plastic particles on the second screening net 321 are vibrated by the vibrator 322, so that the plastic particles smaller than the aperture of the second screening net 321 fall to the flow guide frame 313, and large plastic particles are discharged from the large particle discharge hole 315.

Wherein, processing mechanism 4 includes rotating electrical machines 41, processor 42, dustcoat 43, first heat preservation 44, apotheca 45, rotating electrical machines 41 is installed in processor 42 top, first heat preservation 44 is located between apotheca 45 and the dustcoat 43, processor 42 is located apotheca 45 left side, dustcoat 43 is the cuboid structure of fretwork, and when the plastics tiny particle dropped inside apotheca 45, first heat preservation 44 will keep warm to it, avoids when not collecting it, and the plastics tiny particle receives the influence of outside steam.

Wherein, the processor 42 comprises a rotating shaft 421, a processing chamber 422, a processing knife 423, a second insulating layer 424, a bearing seat 425 and a connecting pipe 426, the rotating shaft 421 is embedded in the bearing seat 425, the rotating shaft 421 is fixedly connected with the processing knife 423, the processing chamber 422 is embedded in the second insulating layer 424, the lower end of the bearing seat 425 is welded with the inner lower end of the processing chamber 422, the lower end of the connecting pipe 426 is embedded in the upper end of the processing chamber 422, the processing chamber 422 is a hollow cylindrical structure, when large-particle plastics enter the processing chamber 422 from the connecting pipe 426, the rotating shaft 421 is driven by the rotating motor 41 to rotate, so that the rotating shaft 421 drives the processing knife 423 to crush and cut the large-particle plastics, the large-particle plastics are divided into small-particle plastics, and the second insulating layer 424 outside the processing chamber 422 can insulate the temperature inside the processing chamber 422, the temperature in the processing process is prevented from dropping sharply, and when the plastic particles reaching the standard are cut into the plastic particles, the plastic particles are led out and packaged.

The specific working process is as follows:

when plastic particles are screened and dried, the plastic particles are slowly poured into the first screening net 311 from the left side, so that the plastic particles slowly roll towards the left side and towards the right side, small particles directly fall onto the plastic particles, meanwhile, the heater 34 in the shell 312 dries the plastic particles, water on the surfaces of the plastic particles is evaporated, when the plastic particles fall onto the second screening net 321 on the vibration screening mechanism 32, the second screening net 321 is vibrated through the vibrator 322, the outer bracket ring 323 on the outer ring of the second screening net 321 is driven to vibrate on the buffer seat 324, particles directly smaller than the aperture of the second screening net 321 of the plastic particles directly fall onto the flow guide frame 313 under vibration, then enter the storage chamber 45 along the flow guide frame 313, and when the qualified plastic particles completely enter the storage chamber 45, the control switch 33 is turned on, cause second screening net 321 top to enter into processing chamber 422 inside for the plastic granules up to standard through connecting pipe 426, then drive rotatory axostylus axostyle 421 at start-up rotating electrical machines 41 and rotate, let processing sword 423 on the rotatory axostylus axostyle 421 process large granule plastics, make and process it into up to standard granule, be equipped with second heat preservation 424 outside processing chamber 422, cause the in-process of plastic granules at processing, the temperature in the processing chamber 422 keeps unchangeable, thereby can effectually prevent that outside temperature is crossed lowly, and cause the influence to the plastic granules in the processing chamber 422.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a plastic granules processing machine that can dry by fire material screening, its structure includes air duct (1), goes up closing cap (2), stoving screening mechanism (3), processing agency (4), thermometer (5), control electronic box (6), air heater (7), air duct (1) top and air heater (7) mechanical connection, install in air duct (1) front end control electronic box (6), thermometer (5) are installed on air duct (1), air duct (1) and stoving screening mechanism (3) intercommunication, go up closing cap (2) and stoving screening mechanism (3) hinged joint, stoving screening mechanism (3) and processing agency (4) intercommunication, its characterized in that:

stoving screening mechanism (3) are including screening room (31), vibration screening mechanism (32), control switch (33), heater (34), screening room (31) internally mounted in heater (34), control switch (33) are installed in the screening room (31) outside, vibration screening mechanism (32) are located inside screening room (31).

2. A bakeable material sifting machine as set forth in claim 1 in which: the screening chamber (31) comprises a first screening net (311), a shell (312), a flow guide frame (313), an inlet hole (314) and a large-particle outlet hole (315), wherein the first screening net (311) is welded with the interior of the shell (312), the shell (312) is installed below the interior of the flow guide frame (313), the shell (312) and the inlet hole (314) are of an integrated structure, and the shell (312) and the large-particle outlet hole (315) are of an integrated structure.

3. A bakeable material sifting machine as set forth in claim 1 in which: the vibrating screening mechanism (32) comprises a second screening net (321), a vibrator (322), an outer support ring (323) and a buffer seat (324), wherein the second screening net (321) is installed on the inner side of the outer support ring (323), the vibrator (322) is installed in the middle of the second screening net (321), and the buffer seat (324) is welded at four corners of the outer support ring (323).

4. A bakeable material sifting machine as set forth in claim 1 in which: the processing mechanism (4) comprises a rotating motor (41), a processor (42), an outer cover (43), a first heat preservation layer (44) and a storage chamber (45), wherein the rotating motor (41) is installed above the processor (42), the first heat preservation layer (44) is arranged between the storage chamber (45) and the outer cover (43), and the processor (42) is located on the left side of the storage chamber (45).

5. A bakeable material sifting machine as set forth in claim 4 in which: the processing device (42) comprises a rotating shaft rod (421), a processing chamber (422), a processing cutter (423), a second heat-insulating layer (424), a bearing seat (425) and a connecting pipe (426), wherein the rotating shaft rod (421) is embedded in the bearing seat (425), the rotating shaft rod (421) is fixedly connected with the processing cutter (423), the processing chamber (422) is embedded in the second heat-insulating layer (424), the lower end of the bearing seat (425) is welded with the inner lower end of the processing chamber (422), and the lower end of the connecting pipe (426) is embedded in the upper end of the processing chamber (422).

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