CN211709767U - Nylon plastic granulator - Google Patents

Abstract

The utility model discloses a nylon plastics pelleter includes: the device comprises a granulating support, a feeding bin arranged on the granulating support, a granulating assembly communicated with the feeding bin, a transmission gear set arranged in the granulating assembly, and an input motor which coaxially rotates with the transmission gear set and is fixedly arranged on the side part of the feeding bin; the transmission gear set comprises a worm which coaxially rotates with the input motor, and an upper worm wheel and a lower worm wheel which are meshed with the worm. The utility model discloses design drive gear group in cutting the grain subassembly, drive grain subassembly and pan feeding storehouse with drive gear group and drive simultaneously, and then make when cutting assembly carries out the stop work simultaneously stop work in pan feeding storehouse, and then avoid cutting assembly stop work after go into the feed bin and do and carry out work, and then the condition of the nylon plastic granules size grow of first cutting when avoiding restarting cutting assembly.

Description

Nylon plastic granulator

Technical Field

The utility model relates to a pelleter specifically is a nylon plastics pelleter.

Background

The plastic granulator is a granulator and is mainly used for processing waste plastic films (industrial packaging films, agricultural mulching films, greenhouse films, beer bags, hand bags and the like), woven bags, agricultural convenient bags, basins, barrels, beverage bottles, furniture, daily necessities and the like.

The plastic granulator is suitable for most common waste plastics, and is a plastic regeneration processing machine which has the widest application and the widest use in the waste plastic regeneration industry and is popular with users.

However, the cutting assembly and the feeding bin in the existing nylon plastic granulator work independently, the feeding bin still works when the cutting assembly stops, the feeding bin does not work any more due to the fact that the cutting assembly does not work any more, the cutting raw material part of the nylon plastic is fed into the cutting assembly, the size of the nylon plastic particles cut for the first time when the cutting assembly is started again is increased, the nylon plastic particles are not in accordance with the standard, and the rejection rate of products is increased.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: provides a nylon plastic granulator to solve the problems in the prior art.

The technical scheme is as follows: a nylon plastic pelletizer, comprising:

the device comprises a grain cutting support, a feeding bin arranged on the grain cutting support, a grain cutting assembly communicated with the feeding bin, a transmission gear set arranged in the grain cutting assembly, an input motor which coaxially rotates with the transmission gear set and is fixedly arranged on the side part of the feeding bin, a discharging bin arranged below the grain cutting assembly, and a conveying assembly arranged in the discharging bin;

the transmission gear set comprises a worm which coaxially rotates with the input motor, and an upper worm wheel and a lower worm wheel which are meshed with the worm; the upper worm wheel is sleeved with the upper extrusion cylinder, the lower worm wheel is sleeved with the lower extrusion cylinder, and a preset gap is formed between the upper extrusion cylinder and the lower extrusion cylinder.

In a further embodiment, cut grain subassembly include with worm fixed connection's eager grain dish is installed cut the grain blade on the grain dish to and cup joint cut the grain dish and with the eager grain casing of pan feeding storehouse intercommunication, the design is cut grain blade and mainly for going on the cutting to nylon plastics, and then is accomplished cutting work.

In further embodiment, the bottom of cutting grain casing is opened there is the discharge gate, the discharge gate with go out the feed bin intercommunication, it has the discharge gate to open in the bottom of cutting grain casing, mainly can follow cutting grain casing and flow out after the cutting of nylon plastics is accomplished, and then accomplish ejection of compact work by going out the feed bin.

In a further embodiment, the conveying assembly comprises a conveying motor fixedly installed in the discharging bin, a front-end conveying shaft in transmission connection with the conveying motor, a tail-end conveying shaft in transmission connection with the front-end conveying shaft, and a conveying belt sleeved with the front-end conveying shaft and the tail-end conveying shaft; the conveying device comprises a front end conveying shaft, a tail end conveying shaft, a conveying belt, a conveying assembly and a conveying group, wherein the front end conveying shaft and the tail end conveying shaft are connected in an inserting mode to form a conveying support, the conveying belt is arranged above the conveying support, the conveying assembly is designed to mainly drive cut nylon plastics to move, and then the conveying group conveys the nylon plastics to an inclined chute.

In a further embodiment, an inclined chute is arranged at the side part of the feeding bin, and a discharging bracket is fixedly arranged below the feeding bin; the end part of the feeding bin is provided with an inclined port communicated with the inclined channel, the inclined channel and the inclined port are designed, and the feeding bin is mainly used for enabling the cut nylon plastics to flow into the inclined channel through the inclined port so as to finish the discharging work of the cut nylon plastics.

In a further embodiment, the upper extrusion cylinder and the lower extrusion cylinder are provided with anti-slip grooves, and the anti-slip grooves are designed mainly for preventing the nylon plastic from slipping during extrusion feeding.

Has the advantages that: the utility model discloses a nylon plastic granulator designs drive gear group in cutting the grain subassembly, will cut grain subassembly and pan feeding storehouse with drive gear group and drive simultaneously, and then makes when cutting assembly carries out the stop work pan feeding storehouse stop work simultaneously, and then avoids cutting assembly to go into the feed bin after the stop work and to be wantonly carrying out work, and then the condition of the nylon plastic granules size grow of first cutting when avoiding restarting cutting assembly.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the feeding bin structure of the present invention.

Fig. 3 is a schematic structural view of the dicing assembly of the present invention.

Fig. 4 is a schematic structural diagram of the conveying assembly of the present invention.

The reference signs are: cut grain support 1, pan feeding storehouse 2, feeding way 21, lower recipient 22, go up recipient 23, cut grain subassembly 3, cut grain dish 31, cut grain blade 32, go up worm wheel 33, lower worm wheel 34, worm 35, play feed bin 4, conveying component 5, conveying motor 51, front end conveying shaft 52, conveyer belt 53, conveying support 54, terminal conveying shaft 55, slope way 6, discharge support 7.

Detailed Description

Through the research and analysis of the applicant, the reason for the problem (when the cutting assembly after stopping is restarted, the size of the nylon plastic particles cut for the first time) is that the cutting assembly and the feeding bin in the existing nylon plastic granulator work independently, and the independent working condition easily causes the feeding bin to work when stopping the cutting assembly, at the moment, because the cutting assembly does not work any more, the cutting raw material part of the nylon plastic is fed into the cutting assembly, when the cutting assembly is restarted, the size of the nylon plastic particles cut for the first time is increased, and further does not accord with the standard, and further increases the rejection rate of the product, and the utility model designs a transmission gear set in the granulating assembly, drives the granulating assembly and the feeding bin simultaneously by the transmission gear set, and further causes the feeding bin to stop working when the cutting assembly stops working, and then avoid cutting assembly to go into the feed bin after stopping work and be wantonly carrying out work, and then the condition of the nylon plastic granules size grow of cutting for the first time when avoiding restarting cutting assembly.

A nylon plastic pelletizer, comprising: cut grain support 1, pan feeding storehouse 2, feeding way 21, lower recipient 22, go up recipient 23, cut grain subassembly 3, cut grain dish 31, cut grain blade 32, go up worm wheel 33, lower worm wheel 34, worm 35, play feed bin 4, conveying component 5, conveying motor 51, front end conveying shaft 52, conveyer belt 53, conveying support 54, terminal conveying shaft 55, slope way 6, discharge support 7.

Wherein, cut the top of grain support 1 and install into feed bin 2, go into feed bin 2 with cut grain subassembly 3 intercommunication, cut and install drive gear group in the grain subassembly 3, drive gear group with the coaxial rotation of input motor, cut grain subassembly 3's below and install out feed bin 4, install conveying component 5 in the play feed bin 4, it says 21 to be equipped with the feeding in the feed bin 2.

The transmission gear set comprises a worm 35 which coaxially rotates with the input motor, and an upper worm wheel 33 and a lower worm wheel 34 which are meshed with the worm 35; the upper worm wheel 33 is sleeved with the upper extrusion container 23, the lower worm wheel 34 is sleeved with the lower extrusion container 22, and a preset gap is formed between the upper extrusion container and the lower extrusion container 22.

Cut grain subassembly 3 include with worm 35 fixed connection's eager grain dish 31 is installed cut grain blade 32 on the grain dish 31, and cup joint cut grain dish 31 and with go into the eager grain casing of feed bin 2 intercommunication, cut grain blade 32 is mainly in order to carry out the cutting to nylon plastics in the design, and then accomplish cutting work.

Cut the bottom of grain casing and open there is the discharge gate, the discharge gate with go out feed bin 4 intercommunication, it has the discharge gate to open in the bottom of grain casing to cut, mainly in order to can follow grain casing and flow when the cutting of nylon plastics is accomplished, and then accomplish ejection of compact work by a feed bin 4.

The conveying assembly 5 comprises a conveying motor 51 fixedly arranged in the discharging bin 4, a front-end conveying shaft 52 in transmission connection with the conveying motor 51, a tail-end conveying shaft 55 in transmission connection with the front-end conveying shaft 52, and a conveying belt 53 sleeved with the front-end conveying shaft 52 and the tail-end conveying shaft 55; the front end transmission shaft 52 and the tail end transmission shaft 55 are inserted into a transmission bracket 54, the transmission belt 53 is arranged above the transmission bracket 54, and the transmission assembly 5 is designed to mainly drive the cut nylon plastic to move, so that the nylon plastic is transmitted to the inclined chute 6 by the transmission set.

An inclined chute 6 is arranged at the side part of the feed bin 2, and a discharge bracket 7 is fixedly arranged below the feed bin 2; the end part of the feeding bin 2 is provided with an inclined port communicated with the inclined port 6, the inclined port 6 and the inclined port are designed, and the nylon plastic after being cut can flow into the inclined port 6 through the inclined port, so that the discharging work of the nylon plastic after being cut can be completed.

The upper extrusion container 23 and the lower extrusion container 22 are provided with anti-slip grooves, and the anti-slip grooves are designed mainly for preventing the nylon plastic from slipping during extrusion feeding.

Description of the working principle: when the nylon plastic needs to be cut into particles, the nylon plastic is put into the bin 2, the nylon plastic is extruded and fed by the upper extrusion cylinder 23 and the lower extrusion cylinder 22, the worm 35 is driven by the input motor to rotate, the worm 35 drives the upper worm wheel 33 and the lower worm wheel 34 to rotate relatively, the upper worm wheel 33 drives the upper extrusion cylinder 23 to rotate anticlockwise, the lower worm wheel 34 drives the lower extrusion cylinder 22 to rotate clockwise, the extrusion and feeding work of the nylon plastic by the upper extrusion cylinder 23 and the lower extrusion cylinder 22 is completed, the nylon plastic enters the particle cutting shell, the worm 35 drives the particle cutting disc 31 to rotate, the particle cutting blade 32 arranged on the particle cutting disc 31 is driven to rotate, the particle cutting blade 32 cuts part of the nylon plastic entering the particle cutting shell, and the cut nylon plastic falls onto the conveying component 5 from a discharge port at the bottom of the particle cutting shell, conveying unit 5 is rotated by conveying motor 51 this moment, and then drives front end conveying axle 52 and rotate, and then drives conveyer belt 53 and remove, and then drives the cutting back nylon plastics that falls on conveyer belt 53 and remove, and the nylon plastics after until the cutting removes to accomplishing ejection of compact work on the slope way 6, and then accomplishes the cutting work to nylon plastics.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be modified to perform various equivalent transformations, which all belong to the protection scope of the present invention.

Claims (6)

1. A nylon plastic granulator is characterized by comprising:

the device comprises a grain cutting support, a feeding bin arranged on the grain cutting support, a grain cutting assembly communicated with the feeding bin, a transmission gear set arranged in the grain cutting assembly, an input motor which coaxially rotates with the transmission gear set and is fixedly arranged on the side part of the feeding bin, a discharging bin arranged below the grain cutting assembly, and a conveying assembly arranged in the discharging bin;

the transmission gear set comprises a worm which coaxially rotates with the input motor, and an upper worm wheel and a lower worm wheel which are meshed with the worm; the upper worm wheel is sleeved with the upper extrusion cylinder, the lower worm wheel is sleeved with the lower extrusion cylinder, and a preset gap is formed between the upper extrusion cylinder and the lower extrusion cylinder.

2. The nylon plastic cutter of claim 1, wherein: cut grain subassembly include with worm fixed connection's eager grain dish is installed cut grain blade on the grain dish to and cup joint cut grain dish and with the eager grain casing of pan feeding storehouse intercommunication.

3. The nylon plastic cutter of claim 2, wherein: the bottom of cutting grain casing open there is the discharge gate, the discharge gate with go out the feed bin intercommunication.

4. The nylon plastic cutter of claim 3, wherein: the conveying assembly comprises a conveying motor fixedly arranged in the discharging bin, a front-end conveying shaft in transmission connection with the conveying motor, a tail-end conveying shaft in transmission connection with the front-end conveying shaft, and a conveying belt sleeved with the front-end conveying shaft and the tail-end conveying shaft; the front end conveying shaft and the tail end conveying shaft are connected with the conveying support in an inserted mode, and the conveying belt is arranged above the conveying support.

5. The nylon plastic cutter of claim 4, wherein: an inclined chute is arranged at the side part of the feeding bin, and a discharging bracket is fixedly arranged below the feeding bin; the end part of the feed bin is provided with an inclined port communicated with the inclined channel.

6. The nylon plastic cutter of claim 1, wherein: and the upper extrusion container and the lower extrusion container are provided with anti-skid grooves.

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