CN217293006U

CN217293006U - Plastic particle drying mechanism

Info

Publication number: CN217293006U
Application number: CN202123003806.0U
Authority: CN
Inventors: 谭荣军
Original assignee: Jiangsu Wenyuan Electronic Technology Co ltd; Zhenjiang Zhiyuan Plastic Technology Co ltd
Current assignee: Jiangsu Wenyuan Electronic Technology Co ltd; Zhenjiang Zhiyuan Plastic Technology Co ltd
Priority date: 2021-12-01
Filing date: 2021-12-01
Publication date: 2022-08-26
Anticipated expiration: 2031-12-01

Abstract

The utility model discloses a plastic pellet stoving mechanism relates to plastics stoving processing technology field, and for solving the current plastic granules production postnatal inner portion among the prior art and can contain micro-moisture, need process through the desiccator, and the inside heat recovery utilization ratio of traditional granule desiccator is lower, appears the problem of the waste of resource easily. The one end of stoving dryer is provided with feed port, and the other end of stoving dryer is provided with discharge port, the surface of stoving dryer is provided with circulating filter, and circulating filter's both sides all are provided with the gear ring axle, circulating filter's one end is provided with air intake fan, and circulating filter's the other end is provided with the air-out fan, feed port's the outside is provided with hot-blast bellows, and the inboard of hot-blast bellows is provided with the toper wind window, the toper wind window rotates with feed port to be connected, and the outside of hot-blast bellows is provided with the feeding hopper.

Description

Plastic particle drying mechanism

Technical Field

The utility model relates to a plastics stoving processing technology field specifically is a plastic pellet stoving mechanism.

Background

The plastic is a high molecular compound which is polymerized by addition polymerization or polycondensation reaction by using monomers as raw materials, the deformation resistance of the high molecular compound is moderate and is between fiber and rubber, the main component of the plastic is resin, the resin refers to the high molecular compound which is not mixed with various additives, the resin is originally named by lipid secreted by animals and plants, such as rosin, shellac and the like, and the resin accounts for about 40-100% of the total weight of the plastic. The basic properties of plastics are largely determined by the nature of the resin, but additives also play an important role. Some plastics are composed essentially of synthetic resins, with no or little additives, such as plexiglas and the like.

However, the existing plastic granules contain trace moisture inside the plastic granules after production and need to be processed by a dryer, and the traditional granule dryer has low heat energy recovery rate inside and is easy to waste resources; therefore, the existing requirements are not met, and a plastic particle drying mechanism is provided for the existing requirements.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a plastic pellet stoving mechanism to inside can contain trace moisture after solving the current plastic granules production that proposes in the above-mentioned background art, need process through the desiccator, and the inside heat recovery utilization ratio of traditional granule desiccator is lower, the problem of the waste of resource appears easily.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a plastic pellet stoving mechanism, includes the stoving dryer, the one end of stoving dryer is provided with feed port, and the other end of stoving dryer is provided with discharge port, the surface of stoving dryer is provided with circulating filter, and circulating filter's both sides all are provided with the gear ring axle, circulating filter's one end is provided with air intake fan, and circulating filter's the other end is provided with air-out fan, feed port's the outside is provided with hot-blast bellows, and hot-blast bellows's inboard is provided with the toper wind window, the toper wind window rotates with feed port to be connected, and hot-blast bellows's the outside is provided with feeding hopper.

Preferably, the inner sides of the feeding port and the discharging port are provided with metal sleeve sheets, the metal sleeve sheets are connected with the feeding port and the discharging port in an attaching mode, and the feeding port is higher than the discharging port.

Preferably, the gear ring shaft is connected with the drying air duct through a screw, a driving wheel is arranged below the gear ring shaft, and the driving wheel is meshed with the gear ring shaft.

Preferably, a sieve mesh filter cylinder is arranged in the drying air cylinder and is connected with the feed port and the discharge port through a switching ring.

Preferably, an air cavity gap is formed between the sieve mesh filter drum and the drying air duct, and the air inlet fan and the air outlet fan extend to the inner side of the air cavity gap.

Preferably, the inside of circulating filter is provided with the moisture absorption filter core, and the moisture absorption filter core is connected with circulating filter combination, circulating filter's both ends all are provided with combination sleeve shaft, and combination sleeve shaft and air inlet fan pass through the pipe connection with air-out fan.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model utilizes the air outlet fan to extract the hot air in the drying air duct, then filters the hot air through the circulating filter, and then delivers the hot air back to the drying air duct through the air inlet fan, thus improving the utilization efficiency of heat energy and reducing energy consumption while drying moisture;

2. the utility model discloses the air-out fan is located higher inlet port one side, and air-inlet fan then is located lower discharge port one side, because the hot steam that produces can flow to the eminence, so need set up the air-out fan in the eminence and take it out, and the temperature of discharge port one side will be less than the temperature of inlet port department in addition, utilizes the temperature that the transference of fan then can increase discharge port, promotes drying efficiency.

Drawings

FIG. 1 is an overall front view of the present invention;

fig. 2 is a schematic view of the internal structure of the drying air duct of the present invention;

fig. 3 is a schematic structural view of the circulation filter of the present invention.

In the figure: 1. drying the air duct; 2. a feed port; 3. a discharge port; 4. a metal sleeve sheet; 5. a gear ring shaft; 6. a circulating filter; 7. an air intake fan; 8. an air outlet fan; 9. a drive wheel; 10. a hot air bellows; 11. a conical air window; 12. a feeding hopper; 13. a mesh cartridge; 14. a transfer ring; 15. a wind cavity gap; 16. a combined sleeve shaft; 17. a moisture absorption filter element.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1, the present invention provides an embodiment: a plastic particle drying mechanism comprises a drying wind barrel 1, one end of the drying wind barrel 1 is provided with a feeding port 2, the other end of the drying wind barrel 1 is provided with a discharging port 3, the outer surface of the drying wind barrel 1 is provided with a circulating filter 6, two sides of the circulating filter 6 are both provided with gear ring shafts 5, one end of the circulating filter 6 is provided with a wind inlet fan 7, the other end of the circulating filter 6 is provided with a wind outlet fan 8, the outer side of the feeding port 2 is provided with a hot wind box 10, the inner side of the hot wind box 10 is provided with a conical wind window 11, the conical wind window 11 is rotatably connected with the feeding port 2, the outer side of the hot wind box 10 is provided with a feeding hopper 12, the inner sides of the feeding port 2 and the discharging port 3 are provided with metal sleeve sheets 4, the metal sleeve sheets 4 are connected with the feeding port 2 and the discharging port 3 in a fitting manner, the feeding port 2 is higher than the discharging port 3, gear ring axle 5 passes through the screw connection with stoving dryer 1, the below of gear ring axle 5 is provided with drive wheel 9, and drive wheel 9 is connected with gear ring axle 5 meshing, throw into the inside of feed port 2 from magazine 12 department with plastic granules, simultaneously hot-blast bellows 10 is with hot-blast inside of carrying stoving dryer 1 together, stoving dryer 1 need carry out at the uniform velocity rotatory in the course of working, can accelerate the stoving of inside granule like this, produce in the stoving process and locate vapor and can mix together with hot-blast, utilize air-out fan 8 to take out inside hot-air this moment, filter through circulating filter 6 afterwards, later again carry it back stoving dryer 1 inside by air inlet fan 7, like this when drying moisture, can promote the utilization efficiency of heat energy, reduce the energy consumption.

Please refer to fig. 2, a sieve mesh filter drum 13 is disposed inside the drying air duct 1, the sieve mesh filter drum 13 is connected to the feeding port 2 and the discharging port 3 through a switching ring 14, an air cavity gap 15 is disposed between the sieve mesh filter drum 13 and the drying air duct 1, and the air inlet fan 7 and the air outlet fan 8 extend to the inner side of the air cavity gap 15, the air outlet fan 8 is located at one side of the higher feeding port 2, the air inlet fan 7 is located at one side of the lower discharging port 3, because the generated hot steam can flow to the high place, the air outlet fan 8 needs to be disposed at the high place to draw out the hot steam, and the temperature at one side of the discharging port 3 is lower than the temperature at the feeding port 2, the temperature at the discharging port 3 can be increased by forwarding the fans, and the drying efficiency is improved.

Referring to fig. 3, a moisture absorption filter element 17 is disposed inside the circulation filter 6, the moisture absorption filter element 17 is connected to the circulation filter 6 in a combined manner, two ends of the circulation filter 6 are both provided with a combined sleeve shaft 16, the combined sleeve shaft 16 is connected to the air inlet fan 7 and the air outlet fan 8 through pipelines, and the moisture absorption filter element 17 can filter moisture in hot air, so as to obtain dry hot air.

The working principle is as follows: when in use, plastic particles are put into the feeding port 2 from the feeding hopper 12, meanwhile, hot air is conveyed into the drying air duct 1 by the hot air bellows 10, the drying air duct 1 needs to rotate at a constant speed in the processing process, so that the drying of the particles inside can be accelerated, water vapor generated in the drying process can be mixed with the hot air, at the moment, hot air in the drying process is extracted by the air outlet fan 8, then the hot air is filtered by the circulating filter 6, and then the hot air is conveyed back into the drying air duct 1 again by the air inlet fan 7, wherein the air outlet fan 8 is positioned at one side of the higher feeding port 2, the air inlet fan 7 is positioned at one side of the lower discharging port 3, because the generated hot steam can flow to a high position, the air outlet fan 8 needs to be arranged at the high position to extract the hot steam, and the temperature at one side of the discharging port 3 is lower than the temperature at the feeding port 2, the temperature of the discharge port 3 can be increased by the transfer of the fan, and the drying efficiency is improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a plastic pellet stoving mechanism, includes stoving dryer (1), its characterized in that: the one end of stoving dryer (1) is provided with feed port (2), and the other end of stoving dryer (1) is provided with discharge port (3), the surface of stoving dryer (1) is provided with circulating filter (6), and the both sides of circulating filter (6) all are provided with gear ring axle (5), the one end of circulating filter (6) is provided with air intake fan (7), and the other end of circulating filter (6) is provided with air-out fan (8), the outside of feed port (2) is provided with hot-blast bellows (10), and the inboard of hot-blast bellows (10) is provided with toper wind window (11), toper wind window (11) rotate with feed port (2) and are connected, and the outside of hot-blast bellows (10) is provided with feeding hopper (12).

2. The plastic particle drying mechanism of claim 1, wherein: the inner sides of the feeding port (2) and the discharging port (3) are provided with metal sleeve sheets (4), the metal sleeve sheets (4) are attached to the feeding port (2) and the discharging port (3), and the feeding port (2) is higher than the discharging port (3).

3. The plastic particle drying mechanism of claim 1, wherein: the drying device is characterized in that the gear ring shaft (5) is connected with the drying air duct (1) through screws, a driving wheel (9) is arranged below the gear ring shaft (5), and the driving wheel (9) is meshed with the gear ring shaft (5).

4. The plastic particle drying mechanism of claim 1, wherein: the inside of the drying air duct (1) is provided with a sieve pore filter drum (13), and the sieve pore filter drum (13) is connected with the feeding port (2) and the discharging port (3) through a switching ring (14).

5. The plastic particle drying mechanism of claim 4, wherein: an air cavity gap (15) is formed between the sieve mesh filter cylinder (13) and the drying air cylinder (1), and the air inlet fan (7) and the air outlet fan (8) extend to the inner side of the air cavity gap (15).

6. The plastic particle drying mechanism of claim 1, wherein: the inside of circulating filter (6) is provided with moisture absorption filter core (17), and moisture absorption filter core (17) and circulating filter (6) built-up connection, the both ends of circulating filter (6) all are provided with combination sleeve axle (16), and make up sleeve axle (16) and air intake fan (7) and air-out fan (8) and pass through the pipe connection.