CN205853158U - Self-priming balanced type rotational moulding Raw material processing device - Google Patents

Abstract

A kind of self-priming balanced type rotational moulding Raw material processing device; including plastic extruder (1), plastic grain cutting machine (2) and plastic grinder (3), it is characterised in that: this Raw material processing device also includes water-cooling groove (4), air-flow air-dry machine (5), hopper (6), the first cyclone separator (7), the first blower fan (8), sack cleaner (9), the first rotary discharger (10), oscillating feeder (11), the second cyclone separator (13), the second blower fan (14) and the second rotary discharger (15)；Hopper (6) is located at the exit of plastic grain cutting machine (2), it is internal that the entrance of the first cyclone separator (7) passes to hopper (6) by pipeline, first rotary discharger (10) is located on the first cyclone separator (7) outlet at bottom, the outlet of the first rotary discharger (10) connects the import of described oscillating feeder (11), and the outlet of oscillating feeder (11) connects the import of plastic grinder (3), the outlet of plastic grinder (3) connects the entrance of the second cyclone separator (13) again through pipeline, the second rotary discharger (15) is set on first cyclone separator (7) outlet at bottom；On the pipeline of the entrance that the second blower fan (14) is connected to the second cyclone separator (13) or the second cyclone separator (13) top stream outlet pipeline on.

Description

Self-priming balanced type rotational moulding Raw material processing device

Technical field

This utility model relates to rotational moulding raw material preparation field, particularly relates to a kind of self-priming balanced type rotational moulding Raw material processing dress Put.

Background technology

The preparation of rotational moulding raw material, is intended to mix granular plastic raw materials and auxiliary agent, need from technique by Granular plastic raw materials and auxiliary agent mixing extrusion, then pelletizing, last pulverizing.In prior art, there is no full automatic streamline The equipment of formula completes above-mentioned whole technical process, can only use independent plastic extruder, plastic grain cutting machine and plastics pulverizing Machine, needs manually to add raw materials into plastic extruder, through to be deposited in that, through the nature of 24 hours after extrusion in plastic extruder After drying, then by a dead lift with add in pelleter, pelleter after being cut into graininess, then by a dead lift with add plastics Flour mill is worn into powdery.Prior art, for convenience transfer of material, be at plastic extruder, plastic grain cutting machine and to mould Belt conveyor or the such conveying equipment of drag conveyor it is connected between material flour mill, but owing to not constituting a whole set of flowing water Line, production efficiency is low, uses manpower too much, and in the transfer process of plastic grain and powder, repeatedly overturning causes dust mistake Many, work border is deteriorated；Further, if using the conveying equipment such as belt conveyor or drag conveyor, noise is the biggest.

Summary of the invention

This utility model purpose is to provide a kind of self-priming balanced type rotational moulding Raw material processing device, it is achieved that pipeline system is automatic Metaplasia is produced, and solves production efficiency and the technical problem of work border difference that prior art exists.

For reaching above-mentioned purpose, the technical solution adopted in the utility model is: a kind of self-priming balanced type rotational moulding Raw material processing Device, including plastic extruder, plastic grain cutting machine and plastic grinder, this Raw material processing device also includes water-cooling groove, air-flow Air-dry machine, hopper, the first cyclone separator, the first blower fan, sack cleaner, the first rotary discharger, oscillating feeder, second Cyclone separator, the second blower fan and the second rotary discharger；

Described water-cooling groove and air-flow air-dry machine are located between outlet and the import of plastic grain cutting machine of described plastic extruder, I.e. after the discharging of plastic extruder water cooled groove water-cooled, then enter plastic grain cutting machine after drying through air-flow air-dry machine and carry out pelletizing； Described hopper is located at the exit of plastic grain cutting machine for accepting the particulate material that plastic grain cutting machine cuts out, and described first whirlwind divides Entrance from device passes to inside hopper by pipeline, and the airflow exhaust outlet at the top of described first cyclone separator connects through pipeline Described sack cleaner, on the pipeline of the entrance that described first blower fan is connected to the first cyclone separator or the first cyclone separator On the pipeline of top stream outlet；Described first rotary discharger is located on the first cyclone separator outlet at bottom, the first rotation The outlet of unloading glassware connects the import of described oscillating feeder, and the outlet of oscillating feeder meets entering of described plastic grinder Mouthful, the outlet of plastic grinder connects the entrance of the second cyclone separator again through pipeline, the top of described second cyclone separator Airflow exhaust outlet connects described sack cleaner through pipeline, the first cyclone separator outlet at bottom sets described second and rotates discharging Device；On the pipeline of the entrance that described second blower fan is connected to the second cyclone separator or the second cyclone separator top stream discharge On the pipeline of mouth.

In such scheme, under the outlet of described second cyclone separator, undertake a vibrating screen classifier.

This utility model compared with prior art, has the advantage that

1, this utility model achieves full-automatic streamlined operation, and production efficiency is high, saves labour；

2, owing to using cyclone separator to carry out handling material, there is the effect of dedusting, it is ensured that good working environment, and And, the distance of putting of plastic grain cutting machine and plastic grinder and sack cleaner three can farther out, can be at a distance of 70-80 rice；

3, owing to using cyclone separator to carry out handling material, also with certain during the handling material of cyclone separator Desiccation, therefore raw material need not be completely dried by the design of air-flow air-dry machine, i.e. feed particles in hopper can be still with one Point humidity, can continue to be dried during the first follow-up cyclone separator is by feed particles suction transfer, more energy efficient, also Save time.

Accompanying drawing explanation

Fig. 1 is this utility model embodiment schematic diagram.

In the figures above: 1, plastic extruder；2, plastic grain cutting machine；3, plastic grinder；4, water-cooling groove；5, air-flow air-dries Machine；6, hopper；7, the first cyclone separator；8, the first blower fan；9, sack cleaner；10, the first rotary discharger；11, vibration Feeder；13, the second cyclone separator；14, the second blower fan；15, the second rotary discharger；16, vibrating screen classifier.

Detailed description of the invention

Below in conjunction with the accompanying drawings and this utility model is further described by embodiment:

Embodiment: shown in Figure 1:

A kind of self-priming balanced type rotational moulding Raw material processing device, including plastic extruder 1, plastic grain cutting machine 2, plastic grinder 3, water-cooling groove 4, air-flow air-dry machine 5, hopper the 6, first cyclone separator the 7, first blower fan 8, sack cleaner the 9, first rotary unloading Glassware 10, oscillating feeder the 11, second cyclone separator the 13, second blower fan 14 and the second rotary discharger 15.

Shown in Figure 1, described water-cooling groove 4 and air-flow air-dry machine 5 are located at the outlet of described plastic extruder 1 and are cut with plastics Between the import of grain machine 2, i.e. after the discharging of plastic extruder 1 water cooled groove 4 water-cooled, then enter after drying through air-flow air-dry machine 5 Plastic grain cutting machine 2 carries out pelletizing；Described hopper 6 is located at the exit of plastic grain cutting machine 2 for accepting what plastic grain cutting machine 2 cut out Particulate material, it is internal that the entrance of described first cyclone separator 7 passes to hopper 6 by pipeline, described first cyclone separator 7 The airflow exhaust outlet at top connects described sack cleaner 9 through pipeline, and described first blower fan 8 is connected to the first cyclone separator 7 On the pipeline of entrance or the first cyclone separator 7 top stream outlet pipeline on, Fig. 1 illustrates, the first blower fan 8 is connected to On the pipeline of one cyclone separator 7 top stream outlet.Described first rotary discharger 10 was located at for first cyclone separator 7 end In portion's outlet, the outlet of the first rotary discharger 10 connects the import of described oscillating feeder 11, and the outlet of oscillating feeder 11 Connecing the import of described plastic grinder 3, the outlet of plastic grinder 3 meets the entrance of the second cyclone separator 13, institute again through pipeline The airflow exhaust outlet at the top stating the second cyclone separator 13 connects described sack cleaner 9, the first cyclone separator 7 through pipeline Described second rotary discharger 15 is set on outlet at bottom；Described second blower fan 14 is connected to the pipe of the entrance of the second cyclone separator 13 On road or the second cyclone separator 13 top stream outlet pipeline on, Fig. 1 illustrates, the second blower fan 14 is connected to the second whirlwind On the pipeline of the top stream outlet of separator 13.

In order to the powder particle size of raw material is the most unified, undertake one under the outlet of described second cyclone separator 13 and shake Dynamic screening machine 16, to increase screening together.

During the present embodiment work, plastic grain raw material and auxiliary agent etc. are added into the plastic extruder of this raw material processing unit (plant) The entrance of 1, via plastic extruder 1 mixing extrusion, the strip shape body being extruded enters water-cooling groove 4 water-cooled, the most again through air-flow wind Dry machine 5 enters plastic grain cutting machine 2 after drying and carries out pelletizing, and the particulate material that plastic grain cutting machine 2 cuts out falls in hopper 6 temporary, Another side the first blower fan 8 starts, and by the first cyclone separator 7 internal one-tenth negative pressure state, its entrance is in hopper 6 drawn by pipeline Particulate material, particulate material accelerates centrifugal rotation in the first cyclone separator 7, and particulate material falls at outlet at bottom, warp By the discharge rotating the quantitative constant speed of separation of the first rotary discharger 10, drop down onto on oscillating feeder 11, via oscillating feeder Particulate material is sent in plastic grinder 3 by 11 equably, plastic grinder 3 wear into powdery；Second blower fan 14 starts, and second Cyclone separator 13 is internal also becomes negative pressure state, and its entrance draws the exit powder raw material of material flour mill 3 through pipeline, and powdery is former Material accelerates centrifugal rotation in the second cyclone separator 13, and powder raw material falls at outlet at bottom, rotates discharging via second The discharge rotating the quantitative constant speed of separation of device 15, drops down onto the enterprising row filter of vibrating screen classifier 16.Further, described first cyclonic separation The air-flow of the top stream outlet of device 7 and the second cyclone separator 13 is to discharge after sack cleaner 9 dedusting.

The present embodiment achieves full-automatic streamlined operation, and production efficiency is high, saves labour, and has the effect of dedusting Really, it is ensured that the distance of putting of good working environment, plastic grain cutting machine and plastic grinder and sack cleaner three also may be used With farther out, can be at a distance of 70-80 rice.Also with certain desiccation during the handling material of the first cyclone separator, therefore gas Raw material need not be completely dried by the design of stream air-dry machine, i.e. feed particles in hopper can be still moist with a bit, follow-up The first cyclone separator by feed particles suction transfer during can continue to be dried, more energy efficient, also save time.

Above-mentioned first rotary discharger 10 and the second rotary discharger 15 alternatively referred to as electronic discharger, airlock.

Above-described embodiment only for technology of the present utility model design and feature are described, its object is to allow and is familiar with technique Personage will appreciate that content of the present utility model and implement according to this, protection domain of the present utility model can not be limited with this. All according to this utility model spirit made equivalence change or modify, all should contain protection domain of the present utility model it In.

Claims (2)

1. a self-priming balanced type rotational moulding Raw material processing device, including plastic extruder (1), plastic grain cutting machine (2) and plastics Flour mill (3), it is characterised in that: this Raw material processing device also include water-cooling groove (4), air-flow air-dry machine (5), hopper (6), first Cyclone separator (7), the first blower fan (8), sack cleaner (9), the first rotary discharger (10), oscillating feeder (11), Two cyclone separator (13), the second blower fan (14) and the second rotary discharger (15)；

Described water-cooling groove (4) and air-flow air-dry machine (5) are located at outlet and the plastic grain cutting machine (2) of described plastic extruder (1) Between import, i.e. after discharging water cooled groove (4) water-cooled of plastic extruder (1), then mould through air-flow air-dry machine (5) entrance after drying Material pelleter (2) carries out pelletizing；Described hopper (6) is located at the exit of plastic grain cutting machine (2) and is used for accepting plastic grain cutting machine (2) The particulate material cut out, it is internal that the entrance of described first cyclone separator (7) passes to hopper (6) by pipeline, described first rotation The airflow exhaust outlet at the top of wind separator (7) connects described sack cleaner (9) through pipeline, and described first blower fan (8) is connected to On the pipeline of the entrance of the first cyclone separator (7) or the first cyclone separator (7) top stream outlet pipeline on；Institute State the first rotary discharger (10) to be located on the first cyclone separator (7) outlet at bottom, the outlet of the first rotary discharger (10) Connect the import of described oscillating feeder (11), and the outlet of oscillating feeder (11) connects the import of described plastic grinder (3), mould The outlet of material flour mill (3) connects the entrance of the second cyclone separator (13) again through pipeline, described second cyclone separator (13) The airflow exhaust outlet at top connects described sack cleaner (9) through pipeline, the first cyclone separator (7) outlet at bottom sets described Second rotary discharger (15)；On the pipeline of the entrance that described second blower fan (14) is connected to the second cyclone separator (13) or second On the pipeline of the top stream outlet of cyclone separator (13).

Self-priming balanced type rotational moulding Raw material processing device the most according to claim 1, it is characterised in that: described second cyclonic separation A vibrating screen classifier (16) is undertaken under the outlet of device (13).