CN208452003U - Drying device is used in a kind of production of bio-based plastics - Google Patents

Abstract

The utility model discloses a kind of structure novels, dry bio-based plastics production drying device that is abundant, facilitating discharge, including cabinet, the cabinet are quadrangle cabinet；Feeding pipe, the feeding pipe are connected to the middle part of the upper end of the cabinet；Conveying plate component, the conveying plate component are installed in the cabinet, and the conveying plate component includes the conveying plate that multi-layer portion is obliquely installed, and the output end for being placed in the conveying plate of top is placed in the input end of conveying plate adjacent thereto；Dry component, the dry component include air-cooled component and electric heating assembly；The bio-based plastics production and processing of the utility model is mainly dried the particulate material after granulation with drying device, and is integrated with air-cooled component and electric heating assembly, and a variety of drying modes combine, so that drying is more abundant.

Description

Drying device is used in a kind of production of bio-based plastics

Technical field

The utility model relates to bio-based plastics production and processing equipment technical field more particularly to a kind of bio-based plastics are raw Production drying device.

Background technique

Raw material based on biology base and biodegradable plastics needs to be granulated by pelletizer after passing through the techniques such as modified, with Standby subsequent production equipment processing uses.And in production is granulated, a step is to need by water cooling, at this moment raw through pelletizer The particle of output can absorb a certain amount of moisture, but the moisture that the particle containing moisture needs first to remove particulate material can It is processed in into downstream manufacturing and processing equipment, this is also to restrict in technique requirement.

The particulate material after being granulated mainly is dried by the way of air-cooled in the prior art, mainly wind energy is The more environmentally friendly energy, and dry requirement can be met for the outlet air of the appropriate air quantity of particulate material after being granulated.

Notification number is CN206264191U, and the applying date is an entitled " starch plastics disclosed on November 14th, 2016 Water cooling drying device " Chinese utility model patent, cooling device and wind cold drying device are combined into one it discloses a kind of The mechanism of body first carries out cooling by water to high temperature feedstock, and is dried using wind to it after water cooling, and device integration is higher； In order to slow down the progress of charging and by dispersal of feed blanking, and using the air inlet of the air inlet of lower part to feed particles Wind cold drying is carried out, documents are the powder column plate and splicing plate for devising multilayer in tower and having constant slope, are entered in this way Particulate material in tower will successively flow into the lower part of tower, and during this flowing, the lower part of tower devises air inlet, And acted on by outer fan, the air draft constantly into tower, wind so from bottom to top can to lower upper and under raw material be dried；But It is to find after study, this drying mode more can not fully remove the moisture in raw material, and main cause is exactly only to exist The lower part of tower devises air inlet, and in entire drying process, particulate material charging and blanking are too fast, without brief stay Just discharge, so the drying device to bio-based plastics particulate material is also needed to advanced optimize, it is abundant to guarantee Dried material.

Utility model content

The purpose of the utility model is to provide a kind of structure novel, dryings sufficiently, the bio-based plastics of discharge is facilitated to produce Use drying device.

To achieve the goals above, the utility model provides the following technical solutions:

A kind of bio-based plastics production drying device of the utility model, comprising:

Cabinet, the cabinet are quadrangle cabinet；

Feeding pipe, the feeding pipe are connected to the middle part of the upper end of the cabinet；

Discharge door, the lower part of the cabinet are formed with the collecting bin of storage particulate material, enter cabinet by the feeding pipe Particulate material be delivered in the collecting bin, the discharge door is offered on the collecting bin；

Conveying plate component, the conveying plate component are installed in the cabinet, and the conveying plate component includes multi-layer portion The output end for dividing the conveying plate being obliquely installed, and being placed in the conveying plate of top is placed in the input end of conveying plate adjacent thereto；

Dry component, the dry component include air-cooled component and electric heating assembly；

The air-cooled component includes the air-cooled component of pan feeding being placed at the feeding pipe and is placed in the conveying plate input terminal The air-cooled component of the conveying at place；

The electric heating assembly is integrated in the lower part of the collecting bin；

The collecting bin is at least opened up there are two the discharge door.

Further, the conveying plate component from top to bottom successively includes that the first conveying plate, the second conveying plate and third are defeated Flitch；

Wherein, first conveying plate includes the first connecting plate being connected with the cabinet wall and is movably connected on The first hang plate that first connecting plate is extended downwardly far from the sloped-end of cabinet one end；

Second conveying plate includes the second connecting plate being connected with the inner wall of the cabinet and is fixed on described second Second hang plate that extends obliquely downward of the connecting plate far from described cabinet one end end, second connecting plate are placed in described One connecting plate opposite side, and the discharge end of first hang plate is placed in the connection of second hang plate and the second connecting plate The top at place；

The third conveying plate includes the third connecting plate being connected with the inner wall of the cabinet and is fixed on the third The third hang plate that extends obliquely downward of the connecting plate far from described cabinet one end end, the third connecting plate are placed in described Two connecting plate opposite sides, and the discharge end of second hang plate is placed in the connection of the third hang plate and third connecting plate The top at place, wherein the discharge end of the third hang plate is placed in the middle part of the cabinet.

Further, the air-cooled component of the pan feeding includes the first blower being placed in outside the cabinet, first blower Output end be connected with outlet air tube assembly, the feeding pipe is the internal tube body with cavity, and first blower passes through outlet air Tube assembly is connected to the cavity of the feeding pipe；

The feeding pipe includes tube body, and round table-like feeding channel is formed in the middle part of the tube body, and the feeding channel is in The trend that aperture is gradually reduced from top to bottom is formed with the cavity, and the tube body between the outer wall and inner wall of the tube body Inner wall on offer multiple wind distributing holes；

The outlet air tube assembly of the air-cooled component of pan feeding includes the cloth vane pipe at least two discharge pipes, the cloth wind Endless tube is connected to by the discharge pipe with the cavity of the feeding pipe.

Further, the air-cooled component of the conveying includes the air-cooled component of the second conveying being placed at the second conveying plate and sets The air-cooled component of third conveying at third conveying plate；

The air-cooled component of second conveying include be placed in the second blower outside cabinet and with the second blower outlet air Hold the second air hose of connection, the connection of the air outlet of second air hose towards second hang plate and second connecting plate Place, and the outlet air mouth down of second air hose；

The air-cooled component of third conveying include be placed in third blower outside cabinet and with the third blower outlet air Hold the third air hose of connection, the connection of the air outlet of the third air hose towards the third hang plate and the third connecting plate Place, and the outlet air mouth down of the third air hose.

Further, the electric heating assembly includes the more electric heating tubes for being embedded in the bottom of box, the cabinet Lower part is formed with electric heating tube and is embedded in chamber, and the upper surface of the embedded chamber of the electric heating tube is formed with multiple bottoming holes, described to add The aperture of hot hole is less than the partial size of particulate material；

The on-off of the electric heating tube is controlled by the control cabinet outside device.

Further, the upper end of the cabinet is reserved with ventilation hole.

Further, first one end of the connection board and the inner wall of the cabinet are welded and fixed, first connecting plate The other end is formed as semi-cylindrical shaft, and the both ends of the shaft offer even number limit hole；

First hang plate connect with first connecting plate one end formed there are two strip structure interconnecting piece, it is described Mounting hole there are two opening up on interconnecting piece, two mounting holes are overlapped with any two opposite limit holes, and the connection Portion is connected by pin and first connecting plate.

Further, the quantity of the discharge door is two, and two discharge doors are opened in any phase of the cabinet On two adjacent wall box.

In the above-mentioned technical solutions, a kind of bio-based plastics production drying device provided by the utility model, has Below the utility model has the advantages that

1, the bio-based plastics production and processing of the utility model with drying device mainly to the particulate material after granulation into Row is dried, and is integrated with air-cooled component and electric heating assembly, and a variety of drying modes combine, so that drying is more abundant；

2, the drying device of the utility model has the air-cooled component of multiple groups, can be during conveying to different location Particulate material carries out wind cold drying, improves drying effect；

3, the utility model is integrated with electric heating assembly in the collecting bin of lower box, by air-cooled treated raw material into One step passes through electrically heated mode evaporation water；

4, the collecting bin of the utility model offers at least two discharge doors, and several operating personnels can be facilitated to carry out together Discharge operation, improves production efficiency.

Detailed description of the invention

In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, below will be to institute in embodiment Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only to record in the utility model Some embodiments be also possible to obtain other drawings based on these drawings for those of ordinary skill in the art.

Fig. 1 is the structural schematic diagram that drying device is used in a kind of bio-based plastics production provided by the embodiment of the utility model；

Fig. 2 is the feeding pipe and pan feeding that drying device is used in a kind of bio-based plastics production provided by the embodiment of the utility model The attachment structure schematic diagram of air-cooled component；

Fig. 3 is a kind of the first conveying plate of bio-based plastics production drying device provided by the embodiment of the utility model Structural schematic diagram.

Description of symbols:

1, cabinet；2, feeding pipe；3, outlet air tube assembly；4, the first blower；5, the second blower；6, the second air hose；7, third Blower；8, third air hose；9, the first connecting plate；10, the first hang plate；11, the second connecting plate；12, the second hang plate；13, Three connecting plates；14, third hang plate；15, collecting bin；16, electric heating tube；

201, outer wall；202, inner wall；203, wind distributing hole；204, cavity；205, feeding channel；

301, cloth vane pipe；302, discharge pipe；

901, shaft；902, limit hole；

1001, interconnecting piece；1002, mounting hole；

1501, bottoming hole；1502, discharge door.

Specific embodiment

In order to make those skilled in the art more fully understand the technical solution of the utility model, below in conjunction with attached drawing pair The utility model is further detailed.

It is shown in Figure 1；

A kind of bio-based plastics production drying device of the utility model, comprising:

Cabinet 1, the cabinet 1 are quadrangle cabinet；

Feeding pipe 2, feeding pipe 2 are connected to the middle part of the upper end of cabinet 1；

Discharge door 1502, the lower part of cabinet 1 are formed with the collecting bin 15 of storage particulate material, enter cabinet 1 by feeding pipe 2 Particulate material be delivered in the collecting bin 15, discharge door 1502 is offered on collecting bin 15；

Conveying plate component, conveying plate component are installed in cabinet 1, and conveying plate component includes what multi-layer portion was obliquely installed Conveying plate, and the output end for being placed in the conveying plate of top is placed in the input end of conveying plate adjacent thereto；

Dry component, dry component include air-cooled component and electric heating assembly；

Air-cooled component includes that the air-cooled component of pan feeding being placed at feeding pipe and the conveying for being placed in conveying plate input end are air-cooled Component；

Electric heating assembly is integrated in the lower part of collecting bin 15；

Collecting bin 15 is at least opened up there are two discharge door 1502.

Specifically, present embodiment discloses one kind for dry to particulate material after granulation in bio-based plastics production process Drying device, compared with the existing technology in wind cold drying device, the drying device of the present embodiment be integrated with air-cooled component and Electric heating assembly can apply the drying process of different type and different location to the particulate material entered in cabinet 1.Its Primary structure is as above, first of all for the layout that can facilitate design internal conveying plate component and air-cooled component, the case of the present embodiment Body 1 is designed to the structure different from conventional drying apparatus, i.e. cabinet 1 is in quadrangle cabinet.Quadrangle cabinet can facilitate design Internal conveying plate component, mainly facilitates the blanking of conveying plate, conveying plate can be directly designed to straight panel structure, nothing The plate body of partial circular arc shape need to be designed to adapt to the circular configuration of tank body.And the feeding pipe 2 of 1 top of cabinet is particle Raw material enters the main thoroughfare of cabinet 1, and the biography of conveying plate component is first passed around by the particulate material that the feeding pipe 2 enters cabinet 1 In the collecting bin 15 of the defeated lower part for progressing into cabinet, the discharge door by opening up thereon again after brief stay in collecting bin 15 1502 by manual nest.Design point is located at: the present embodiment all devises air-cooled on the multilayer conveying plate component of conveying plate component Component can carry out wind cold drying to particulate material while conveying, meanwhile, air-cooled component is also devised at feeding pipe 2, The processing of first time wind cold drying can be done to particulate material in charging, finally, the particulate material by air-cooled processing is gathering materials It is dried again in storehouse 15 by electrically heated mode, multiple drying can ensure to remove most of moisture in particulate material, after being It is continuous to process condition of providing convenience, meet technique requirement.

Preferably, conveying plate component from top to bottom successively includes the first conveying plate, the second conveying plate and the in the present embodiment Three conveying plates；

Wherein, the first conveying plate includes the first connecting plate 9 being connected with 1 inner wall of cabinet and is movably connected on the first company The first hang plate 10 that fishplate bar 9 is extended downwardly far from the sloped-end of 1 one end of cabinet；

Second conveying plate includes the second connecting plate 11 being connected with the inner wall of cabinet 1 and is fixed on the second connecting plate 11 The second hang plate 12 extended obliquely downward far from 1 one end end of cabinet, it is opposite that the second connecting plate 11 is placed in the first connecting plate 9 On one side, and the discharge end of the first hang plate 10 be placed in the second hang plate 12 and the second connecting plate 11 junction top；

Third conveying plate includes the third connecting plate 13 being connected with the inner wall of cabinet 1 and is fixed on third connecting plate 13 The third hang plate 14 extended obliquely downward far from 1 one end end of cabinet, third connecting plate 13 are placed in 11 phase of the second connecting plate To one side, and the discharge end of the second hang plate 12 is placed in the top of the junction of third hang plate 14 and third connecting plate 13, In, the discharge end of third hang plate 13 is placed in the middle part of cabinet 1.

The present embodiment specifically describes the structure of conveying plate component, wherein the first hang plate 10 and the first connecting plate 9 are to live Dynamic connection, main purpose are to be able to adjust the speed of pan feeding according to the aqueous different situations of material, i.e., when the first inclination 10 relative level angle of plate can accelerate pan feeding speed when larger, on the contrary, angle is smaller and while tending to level will be greatly Slow down pan feeding speed.And the second conveying plate and third conveying plate be by the way of being connected or integrated formed structure, according to best The tilt angle of conveying rate, the second hang plate of the present embodiment 12 and third hang plate 14 is best at 15 °~30 °.And this reality Apply the main conveying mode of example are as follows: particulate material enters cabinet 1 by feeding pipe 2, and particulate material first can be fallen in the first inclination At plate 10, then under the effect of gravity, along the first conveying downwards of hang plate 10, then fall on the second hang plate 12, then Further conveying downwards, falls on third hang plate 14, finally all particulate materials are summarized in collecting bin 15, when all places After reason, operating personnel can open discharge door 1502, then take out particulate material, and transport to the process equipment in downstream ?.

Referring to shown in Fig. 1, Fig. 2, it is preferred that the air-cooled component of pan feeding includes first be placed in outside cabinet 1 in the present embodiment Blower 4, the output end of the first blower 4 are connected with outlet air tube assembly 3, and feeding pipe 2 is the internal tube body with cavity 204, and first Blower 4 is connected to by outlet air tube assembly 3 with the cavity 204 of feeding pipe 2；

Feeding pipe 2 includes tube body, is formed with round table-like feeding channel 205 in the middle part of tube body, feeding channel 205 be in by up to The trend that lower aperture is gradually reduced is formed with cavity 204, and the inner wall 202 of tube body between the outer wall 201 and inner wall 202 of tube body On offer multiple wind distributing holes 203；

The outlet air tube assembly 3 of the air-cooled component of pan feeding includes the cloth vane pipe 301 at least two discharge pipes 302, cloth wind Endless tube 301 is connected to by discharge pipe 302 with the cavity 204 of feeding pipe 2.

In addition, the air-cooled component of above-mentioned conveying includes the air-cooled component of the second conveying being placed at the second conveying plate and is placed in The air-cooled component of third conveying at third conveying plate；

The air-cooled component of second conveying includes the second blower 5 being placed in outside cabinet 1 and connects with 5 outlet air end of the second blower The second logical air hose 6, the junction of air outlet direction the second hang plate 12 and the second connecting plate 11 of the second air hose 6, and second The outlet air mouth down of air hose 6；

The air-cooled component of third conveying includes the third blower 7 being placed in outside cabinet 1 and connects with 7 outlet air end of third blower Logical third air hose 8, the air outlet of third air hose 8 is towards the junction of third hang plate 14 and third connecting plate 13, and third The outlet air mouth down of air hose 8.

The present embodiment mainly describes the structure of air-cooled component, first at feeding pipe 2 this implementation devise first it is air-cooled Component, i.e., the air-cooled component of above-mentioned pan feeding, first the present embodiment improve feeding pipe 2, are designed into internal with sky The structure of chamber 204, then in order to slow down the speed of material pan feeding, the channel of feeding pipe 2 is designed to it is round table-like, meanwhile, pass through The air-supply of first blower 4, in 2 cavity 204 of feeding pipe constantly into feeding channel 205 cloth wind, to particulate material do for the first time It is dried.

Then, on the conveying plate component of lower section, the above-mentioned air-cooled component of the second conveying and third conveying have been separately designed Air-cooled component is equally utilized respectively external the second blower 5 and third blower 7 and constantly blows to cabinet 1.Wherein, the present embodiment The second air hose 6 and 8 major design of third air hose at the feeding end of hang plate, with conveying conveying can also be provided it is certain Conveying power, meanwhile, in order to avoid conveying is too fast, the air outlet of the present embodiment generally towards it is lower can be better.

Finally, generally control cabinet/control cabinet can be arranged in outside in the device of the present embodiment, control cabinet/control cabinet is to all Blower is uniformly controlled.

Preferably, electric heating assembly includes the more electric heating tubes 16 for being embedded in 1 bottom of cabinet in the present embodiment, cabinet 1 Lower part is formed with electric heating tube and is embedded in chamber, and the upper surface of the embedded chamber of electric heating tube is formed with multiple bottoming holes 1501, bottoming hole 1501 aperture is less than the partial size of particulate material；The on-off of electric heating tube 16 is controlled by the control cabinet outside device.In addition, cabinet 1 upper end is reserved with ventilation hole.The electric heating of the present embodiment is also controlled by above-mentioned control cabinet/control cabinet, wherein either electric Heating or wind cold drying, all can be in cabinet 1 there are certain steam, therefore the present embodiment is reserved in the upper end of cabinet 1 Ventilation hole, for discharging extra steam/humid air.

It is shown in Figure 3, it is preferred that 9 one end of the first connecting plate and the inner wall of cabinet 1 are welded and fixed in the present embodiment, the The other end of one connecting plate 9 is formed as semi-cylindrical shaft 901, and the both ends of shaft 901 offer even number limit hole 902；First hang plate 10 connect one end formation with the first connecting plate 9, and there are two the interconnecting piece 1001 of strip structure, interconnecting pieces It is opened up on 1001 there are two mounting hole 1002, two mounting holes 1002 are overlapped with two arbitrarily opposite limit holes 902, and are connected Portion 1001 is connected by pin and the first connecting plate 9.This embodiment describes a kind of the first conveying plate structure convenient for adjusting, It is connected by the first connecting plate 9 with the structure movement of the similar shaft of 10 end of the first hang plate, needs to adjust the first hang plate When 10 tilt angle, angle of first hang plate 10 relative to the first connecting plate 9 only need to be adjusted, then using pin by two Mounting hole 1002 and a certain group of limit hole 902 are fixed together.

Preferably, the quantity of discharge door 1502 is two in the present embodiment, and two discharge doors 1502 are opened in appointing for cabinet 1 On two wall box for anticipating adjacent.

In the above-mentioned technical solutions, a kind of bio-based plastics production drying device provided by the utility model, has Below the utility model has the advantages that

The bio-based plastics production and processing of the utility model mainly carries out the particulate material after granulation with drying device It is dried, and is integrated with air-cooled component and electric heating assembly, a variety of drying modes combine, so that drying is more abundant；

The drying device of the utility model has the air-cooled component of multiple groups, can be during conveying to of different location Grain raw material carries out wind cold drying, improves drying effect；

Collecting bin 15 of the utility model in 1 lower part of cabinet is integrated with electric heating assembly, passes through air-cooled treated raw material Further pass through electrically heated mode evaporation water；

The collecting bin 15 of the utility model offers at least two discharge doors 1502, can facilitate several operating personnels together Discharging operation is carried out, production efficiency is improved.

It is above that certain exemplary embodiments of the utility model are only described by way of explanation, undoubtedly, for Those skilled in the art can be with a variety of different without departing from the spirit and scope of the utility model Mode is modified described embodiment.Therefore, above-mentioned attached drawing and description are regarded as illustrative in nature, and should not be construed as Limitation to the utility model claims protection scope.

Claims (6)

1. a kind of bio-based plastics production drying device characterized by comprising

Cabinet (1), the cabinet (1) are quadrangle cabinet；

Feeding pipe (2), the feeding pipe (2) are connected to the middle part of the upper end of the cabinet (1)；

Discharge door (1502), the lower part of the cabinet (1) is formed with the collecting bin (15) of storage particulate material, by the feeding pipe (2) particulate material into cabinet (1) is delivered in the collecting bin (15), offers the discharge door on the collecting bin (15) (1502)；

Conveying plate component, the conveying plate component is installed in the cabinet (1), and the conveying plate component includes multi-layer portion The conveying plate being obliquely installed, and the output end for being placed in the conveying plate of top is placed in the input end of conveying plate adjacent thereto；

Dry component, the dry component include air-cooled component and electric heating assembly；

The air-cooled component includes the air-cooled component of pan feeding being placed at the feeding pipe (2) and is placed in the conveying plate input end The air-cooled component of conveying；

The electric heating assembly is integrated in the lower part of the collecting bin (15)；

The collecting bin (15) at least opens up there are two the discharge door (1502).

2. a kind of bio-based plastics production drying device according to claim 1, which is characterized in that the conveying board group Part from top to bottom successively includes the first conveying plate, the second conveying plate and third conveying plate；

Wherein, first conveying plate includes the first connecting plate (9) being connected with the cabinet (1) inner wall and is flexibly connected In the first hang plate (10) that first connecting plate (9) extends downwardly far from the sloped-end of cabinet (1) one end；

Second conveying plate includes the second connecting plate (11) being connected with the inner wall of the cabinet (1) and is fixed on described Second hang plate (12) that extends obliquely downward of second connecting plate (11) far from the cabinet (1) one end end, described second Connecting plate (11) is placed in the first connecting plate (9) opposite side, and the discharge end of first hang plate (10) be placed in it is described The top of the junction of second hang plate (12) and the second connecting plate (11)；

The third conveying plate includes the third connecting plate (13) being connected with the inner wall of the cabinet (1) and is fixed on described The third hang plate (14) that extends obliquely downward of the third connecting plate (13) far from the cabinet (1) one end end, the third Connecting plate (13) is placed in the second connecting plate (11) opposite side, and the discharge end of second hang plate (12) be placed in it is described The top of the junction of third hang plate (14) and third connecting plate (13), wherein the discharge end of the third hang plate (14) It is placed in the middle part of the cabinet (1).

3. a kind of bio-based plastics production drying device according to claim 2, which is characterized in that the pan feeding is air-cooled Component includes being placed in external the first blower (4) of the cabinet (1), and the output end of first blower (4) is connected with discharge pipe Component (3), the feeding pipe (2) are the internal tube body with cavity (204), and first blower (4) passes through outlet air tube assembly (3) it is connected to the cavity (204) of the feeding pipe (2)；

The feeding pipe (2) includes tube body, is formed in the middle part of the tube body round table-like feeding channel (205), and the pan feeding is logical Road (205) is formed between the outer wall (201) and inner wall (202) of the tube body in the trend that from top to bottom aperture is gradually reduced The cavity (204), and multiple wind distributing holes (203) are offered on the inner wall (202) of the tube body；

The outlet air tube assembly (3) of the air-cooled component of pan feeding includes the cloth vane pipe at least two discharge pipes (302) (301), the cloth vane pipe (301) is connected to by the discharge pipe (302) with the cavity (204) of the feeding pipe (2).

4. a kind of bio-based plastics production drying device according to claim 2, which is characterized in that the conveying is air-cooled Component includes the air-cooled component of the second conveying being placed at the second conveying plate and air-cooled group of the third conveying being placed at third conveying plate Part；

The air-cooled component of second conveying include be placed in external the second blower (5) of cabinet (1) and with second blower (5) the second air hose (6) of outlet air end connection, the air outlet of second air hose is towards second hang plate (12) and described the The junction of two connecting plates (11), and the outlet air mouth down of second air hose (6)；

The air-cooled component of third conveying include be placed in the external third blower (7) of cabinet (1) and with the third blower (7) the third air hose (8) of outlet air end connection, the air outlet of the third air hose (8) is towards the third hang plate (14) and institute State the junction of third connecting plate (13), and the outlet air mouth down of the third air hose (8).

5. a kind of bio-based plastics production drying device according to claim 2, which is characterized in that the electric heating group Part includes the more electric heating tubes (16) for being embedded in the cabinet (1) bottom, and it is embedding that the lower part of the cabinet (1) is formed with electric heating tube It behave affectedly, and the upper surface of the embedded chamber of the electric heating tube is formed with multiple bottoming holes (1501), the hole of the bottoming hole (1501) Diameter is less than the partial size of particulate material；

The on-off of the electric heating tube (16) is controlled by the control cabinet outside device.

6. a kind of bio-based plastics production drying device according to claim 5, which is characterized in that the cabinet (1) Upper end be reserved with ventilation hole.