CN101897469A - Cutting and conveying system of extruder - Google Patents

Abstract

The invention discloses a cutting and conveying system of an extruder, which is positioned at the adjacent side of the discharge port of a double-screw extruder or a multi-screw extruder and used for cutting, spraying and drying strip-shaped materials extruded by the extruder. The cutting and conveying system of the extruder comprises a cutting device, a pre-treating conveying device, a post-treating conveying device, a collecting device, a discharge device, two spraying devices and two drying devices, wherein the two spraying devices and the two drying devices are positioned above the post-treating conveying device; the cutting device comprises a high-pressure water jet, a front static drying device and a back static drying device, wherein the front static drying device and the back static drying device are positioned at two sides of the high-pressure water jet; the high-pressure water jet further comprises a pressurizing cavity and a jetting orifice below the pressurizing cavity; and the jetting orifice is linear, the length of the jetting orifice is equal to the widths of the pre-treating conveying device and the post-treating conveying device, and the jetting orifice is positioned in the axle wire of a cutting clearance.

Description

Cutting and conveying system of extruder

Technical field

The present invention relates to a kind of transfer system, particularly a kind of cutting and conveying system of extruder.

Background technology

Along with increase day by day to the requirement of the nutrition of food, the bread basket and the production method thereof of various composite nutrients are also developing by leaps and bounds, from the pre-steaming method technology of early stage acid, directly soak technologies such as suction method and coating method, develop into nowadays more complete:, obtain the technological process of multi-nutrient fortification composite cereal at last from cereal pulverizing → preliminary treatment → mix with nutrient → push → excision forming → drying → screening → join rice in proportion.

And the step of extruding-excision forming wherein is the important step in the production process, single screw rod or the twin (double) screw extruder generally taked, the hydrate of cereal powder is pushed the back by certain shape mould, obtain the cereals of needed shape, size through cutting, and on corresponding conveyer belt, carry, until check and packaging step.

The bar shaped material that extruder is extruded can not only be crossed cutting and granulate, and directly is prepared into the bar shaped material, as products such as noodles, through last handling process, is re-used as product output.

The invention provides a kind of cutting and conveying system of extruder that is applicable to described technology, its bar shaped material that extruder is extruded cuts, and further spray flavoring or additive, its surface of subsequent drying, simultaneously also can be at bar shaped material surface spray oil lipid material, and after spraying, adopt hot-air, thereby make the oil substances of bar shaped material surface spraying solidify the crack performance after avoiding effectively in the dry run rapidly to its rapid oven dry.

Summary of the invention

The invention discloses a kind of cutting and conveying system of extruder, the adjacent side that it is positioned at twin-screw or multi-screw extruder and has discharging opening, the bar shaped material that is used for extruding through extruder cuts and do spraying and oven dry is handled.

Described cutting and conveying system of extruder comprises cutter sweep, preliminary treatment conveyer, post processing conveyer, gathering-device, drawing mechanism.Described each conveyer is followed successively by preliminary treatment conveyer, post processing conveyer, gathering-device and drawing mechanism along the material direction of transfer.

Described preliminary treatment conveyer is positioned at described discharging opening below, and the gap of 10mm～100mm with interval, and overlapping about the front end of described preliminary treatment conveyer and the discharging opening, to guarantee that material all drops on the preliminary treatment conveyer.The length of described lap is less than 1/10 of preliminary treatment conveyer horizontal length

Described preliminary treatment conveyer, post processing conveyer width is identical and be positioned on the same horizontal plane, is provided with the cutting gap of 5mm～60mm between the two.

The direction of transfer of described preliminary treatment conveyer, post processing conveyer is vertical with the direction of transfer of gathering-device, drawing mechanism.

Described gathering-device is positioned at post processing conveyer below, and the gap of 10mm～100mm with interval, and the side direction of the end of described post processing conveyer and function conveyer is overlapping up and down, and the length of lap is less than 1/10 of the gathering-device horizontal length.

The static drying unit of preceding static drying unit and back that described cutter sweep comprises a high-pressure water knife and is positioned at its both sides.

Described high-pressure water knife further comprise pressurizing chamber with and under the jetting orifice.It is linear that described jetting orifice is, and its length equates with the width of preliminary treatment conveyer and post processing conveyer, and is positioned at the place, axis of cutting gap.

Static drying unit is infra-red drying device or microwave drier before described, and further comprises instrument box and transmitting terminal.The static drying unit in described back is infra-red drying device, microwave drier or ultraviolet drying device, and further comprises instrument box and transmitting terminal.

The transmitting terminal of the static drying unit of the transmitting terminal of static drying unit and back is linear before described, the two length equates with the width of preliminary treatment conveyer and post processing conveyer, and lay respectively at the terminal edge of preliminary treatment conveyer and the front edge of post processing conveyer, thereby two ends to the bar shaped material that cut off by high-pressure water knife are dried, and make its drying to avoid the storeroom bonding.

Described cutter sweep further comprises and is positioned at preliminary treatment conveyer and post processing conveyer below, and over against the collection box of cutting gap, it is used to reclaim the particle that current that high-pressure water knife penetrates and cutting are dropped.

Described preliminary treatment conveyer comprises transmission shaft and plane belt.The inner surface that the plane belt of described preliminary treatment conveyer and transmission shaft are in contact with one another is provided with gear, and the gear on this gear and transmission shaft surface is meshing with each other, to realize synchronous driving.

Described post processing conveyer comprises at least 3 transmission shafts and plane belt.The inner surface that the plane belt of described post processing conveyer and transmission shaft are in contact with one another is provided with gear, and the gear on this gear and transmission shaft surface is meshing with each other, to realize synchronous driving.

Described gathering-device comprises transmission shaft, the material baffle of plane belt and both sides at a slow speed.The plane belt at a slow speed of described gathering-device and the inner surface that transmission shaft is in contact with one another are provided with gear, and the gear on this gear and transmission shaft surface is meshing with each other, to realize synchronous driving.

Described gathering-device is positioned at post processing conveyer below and vertical with its direction of transfer, many groups bar shaped material that described post processing conveyer transmits drops at a slow speed on the plane belt one by one, pile up mutually, pool one group of material, subsequently along being transmitted by plane belt at a slow speed, thereby make the bar shaped material be collected arrangement at the gathering-device place with direction of transfer is vertical before direction.

Described material baffle is used to prevent that material from skidding off.

Described drawing mechanism comprises the material baffle of at least 3 transmission shafts, concave surface conveyer belt and both sides.The concave surface conveyer belt of described drawing mechanism and the inner surface that transmission shaft is in contact with one another are provided with gear, and the gear on this gear and transmission shaft surface is meshing with each other, to realize synchronous driving.

The arc groove that described concave surface conveyer belt outer surface has continuous distributed slides to prevent the material on it.Described arc groove is by most advanced and sophisticated projection around it and the arc concave configuration that is surrounded, its radian is 50 °～130 °, be line style distribution and vertical long apart from the conveyer belt outer surface with direction of transfer, thereby make the strip material level in each arc groove inside, thereby the bar shaped material is divided into groups.

Described material baffle is used to prevent that material from skidding off.

Described transfer system further comprises first spray equipment, second spray equipment, first drying unit and second drying unit.

Along flow direction of material, the adjacent successively top that is arranged on the post processing conveyer of described first spray equipment, first drying unit, second spray equipment and second drying unit, four contour and and the plane belt of post processing conveyer between the gap of 100mm～300mm at interval.

Described first spray equipment comprises conveying pipeline and spray material port from top to bottom, and described second spray equipment comprises conveying pipeline and spray material port from top to bottom.Described spray material port and be respectively applied for conveying pipeline and in material evenly be sprayed on the bar shaped material that is positioned at plane belt.

Described first drying unit comprises breather pipe and exhaust outlet from top to bottom, and described second drying unit comprises breather pipe and exhaust outlet from top to bottom.Described exhaust outlet and respectively with breather pipe and at a high speed evenly ejection of hot-air, thereby dry plane belt and the last bar shaped material of being positioned at.

Described gathering-device and drawing mechanism are positioned on the same horizontal plane.Perhaps described gathering-device is horizontal distribution, and described drawing mechanism is positioned at gathering-device below and coupled, and described drawing mechanism and horizontal direction are 5 °～35 ° angles.

Below, will be described further by specific embodiment, yet embodiment only is giving an example of alternative embodiment of the present invention that its disclosed feature only is used for explanation and sets forth technical scheme of the present invention, and is not intended to limit the scope of the invention.

Description of drawings

Fig. 1 is the overall structure sketch of transfer system of the present invention.

Fig. 2 is the vertical view of each conveyer belt of transfer system of the present invention.

Fig. 3 a is the structural representation of the concave surface conveyer belt of drawing mechanism of the present invention.

Fig. 3 b is one of the arc groove structural representation of the concave surface conveyer belt of drawing mechanism of the present invention.

Fig. 3 c be drawing mechanism of the present invention the concave surface conveyer belt the arc groove structural representation two.

Fig. 4 a is the material-gathering device of first embodiment of the invention and the side view of drawing mechanism.

Fig. 4 b is the material-gathering device of second embodiment of the invention and the side view of drawing mechanism.

The specific embodiment

According to claim of the present invention and the disclosed content of specification, technical scheme of the present invention is specific as follows described:

Embodiment one:

As shown in Figure 1 be a kind of cutting and conveying system of extruder, it is positioned at twin-screw or multi-screw extruder 11 and has the adjacent side of discharging opening 12, the bar shaped material that is used for extruding through extruder cuts and do spraying and oven dry is handled.

Described cutting and conveying system of extruder comprises cutter sweep 2, preliminary treatment conveyer 31, post processing conveyer 32, gathering-device 33, drawing mechanism 34.Described each conveyer is followed successively by preliminary treatment conveyer 31, post processing conveyer 32, gathering-device 33 and drawing mechanism 34 along the material direction of transfer.

Below with reference to Fig. 1 and Fig. 2, further describe each conveyer structure.

Described preliminary treatment conveyer 31 is positioned at described discharging opening 12 belows, and the gap of 10mm～100mm with interval, and the front end of described preliminary treatment conveyer 31 and discharging opening are overlapping about in the of 12, to guarantee that material all drops on the preliminary treatment conveyer 31.The length of described lap is less than 1/10 of preliminary treatment conveyer 31 horizontal lengths

Described preliminary treatment conveyer 31, post processing conveyer 32 width are identical and be positioned on the same horizontal plane, are provided with the cutting gap 20 of 5mm～60mm between the two.

The direction of transfer of described preliminary treatment conveyer 31, post processing conveyer 32 is vertical with the direction of transfer of gathering-device 33, drawing mechanism 34.

Described gathering-device 33 is positioned at post processing conveyer 32 belows, and the gap of 10mm～100mm with interval, and the side direction of the end of described post processing conveyer 32 and function conveyer 32 is overlapping up and down, and the length of lap is less than 1/10 of gathering-device 33 horizontal lengths.

As shown in Figure 1, the described cutter sweep 2 static drying unit 23 of preceding static drying unit 21 and back that comprises a high-pressure water knife 22 and be positioned at its both sides.

Described high-pressure water knife 22 further comprise pressurizing chamber 221 with and under jetting orifice 222.It is linear that described jetting orifice 222 is, and its length equates with the width of preliminary treatment conveyer 31 and post processing conveyer 32, and is positioned at the place, axis of cutting gap 20.

Static drying unit 21 is infra-red drying device or microwave drier before described, and further comprises instrument box 211 and transmitting terminal 212.The static drying unit 22 in described back is infra-red drying device, microwave drier or ultraviolet drying device, and further comprises instrument box 221 and transmitting terminal 222.

The transmitting terminal 222 of the static drying unit 23 of the transmitting terminal 212 of static drying unit 21 and back is linear before described, the two length equates with the width of preliminary treatment conveyer 31 and post processing conveyer 32, and lay respectively at the terminal edge of preliminary treatment conveyer 31 and the front edge of post processing conveyer 32, thereby two ends to the bar shaped material that cut off by high-pressure water knife 22 are dried, and make its drying to avoid the storeroom bonding.

Described cutter sweep 2 further comprises and is positioned at preliminary treatment conveyer 31 and post processing conveyer 32 belows, and over against the collection box 24 of cutting gap 20, it is used to reclaim the particle that current that high-pressure water knife 22 penetrates and cutting are dropped.

As depicted in figs. 1 and 2, described preliminary treatment conveyer 31 comprises transmission shaft 311 and plane belt 312.The inner surface that the plane belt 312 and the transmission shaft 311 of described preliminary treatment conveyer 31 are in contact with one another is provided with gear, and the gear on this gear and transmission shaft 311 surfaces is meshing with each other, to realize synchronous driving.

As depicted in figs. 1 and 2, described post processing conveyer 32 comprises at least 3 transmission shafts 321 and plane belt 322.The inner surface that the plane belt 322 and the transmission shaft 321 of described post processing conveyer 32 are in contact with one another is provided with gear, and the gear on this gear and transmission shaft 321 surfaces is meshing with each other, to realize synchronous driving.

As depicted in figs. 1 and 2, described gathering-device 33 comprises transmission shaft 331, the material baffle 333 of plane belt 332 and both sides at a slow speed.The inner surface that the plane belt at a slow speed 332 and the transmission shaft 331 of described gathering-device 33 are in contact with one another is provided with gear, and the gear on this gear and transmission shaft 331 surfaces is meshing with each other, to realize synchronous driving.

Described gathering-device 33 is positioned at post processing conveyer 32 belows and vertical with its direction of transfer, many groups bar shaped material that described post processing conveyer 32 transmits drops at a slow speed on the plane belt 332 one by one, pile up mutually, pool one group of material, subsequently along being transmitted by plane belt 332 at a slow speed, thereby make the bar shaped material be collected arrangement at gathering-device 33 places with direction of transfer is vertical before direction.

Described material baffle 333 is used to prevent that material from skidding off.

As depicted in figs. 1 and 2, described drawing mechanism 34 comprises the material baffle 343 of at least 3 transmission shafts 341, concave surface conveyer belt 342 and both sides.The inner surface that the concave surface conveyer belt 342 and the transmission shaft 341 of described drawing mechanism 34 are in contact with one another is provided with gear, and the gear on this gear and transmission shaft 341 surfaces is meshing with each other, to realize synchronous driving.

Shown in Fig. 3 a, 3b and 3c, described concave surface conveyer belt 342 outer surfaces have the arc groove 345 of continuous distributed, slide to prevent the material on it.Described arc groove 345 is the arc concave configuration that surrounded by the most advanced and sophisticated projection 343 and 344 around it, its radian is 50 °～130 °, be line style distribution and vertical long apart from conveyer belt 342 outer surfaces with direction of transfer, thereby make the strip material level in each arc groove 345 inside, thereby the bar shaped material is divided into groups.

Described material baffle 343 is used to prevent that material from skidding off.

As shown in Figure 1, described transfer system further comprises first spray equipment 41, second spray equipment 42, first drying unit 51 and second drying unit 52.

Along flow direction of material, described first spray equipment 41, first drying unit 51, the adjacent successively top that is arranged on post processing conveyer 32 of second spray equipment 42 with second drying unit 52, four contour and and the plane belt 322 of post processing conveyer 32 between the gap of 100mm～300mm at interval.

Described first spray equipment 41 comprises conveying pipeline 411 and spray material port 412 from top to bottom, and described second spray equipment 42 comprises conveying pipeline 421 and spray material port 422 from top to bottom.Described spray material port 412 and 422 is respectively applied for the material in conveying pipeline 411 and 421 evenly is sprayed on the bar shaped material that is positioned at plane belt 322.

Described first drying unit 51 comprises breather pipe 511 and exhaust outlet 512 from top to bottom, and described second drying unit 52 comprises breather pipe 521 and exhaust outlet 522 from top to bottom.Described exhaust outlet 512 and 522 is respectively with the evenly ejection at a high speed of the hot-air in breather pipe 511 and 521, thus the dry bar shaped material that is positioned on plane belt 322 and 332.

Described gathering-device 33 and drawing mechanism 34 are positioned on the same horizontal plane.Perhaps described gathering-device 33 is horizontal distribution,

Embodiment two:

On the basis of embodiment one, improve technical scheme in such a way:

Described drawing mechanism 34 is positioned at gathering-device 33 belows and coupled, and described drawing mechanism 34 is 5 °～35 ° angles with horizontal direction.

Embodiment three:

In actual use, the material of extruding from extruder 11 advanced discharging opening 12, formed some bar shaped materials, dropped on the conveyer belt 321 of preliminary treatment conveyer 32.

The transmission shaft 322 of preliminary treatment conveyer 32 drives conveyer belt 321 and rotates, and the strip strip on it is moved to its end.Some bar shaped materials stride across narrower cutting gap 20, are sent on the post processing conveyer 33.This moment, high-pressure water knife 22 penetrated High-Pressure Water, pass cutting gap 20 from top to bottom, some bar shaped materials at this place are cut off, this moment, high-pressure water knife 22 stopped cutting, in generation, driven the static drying unit 22 of preceding static drying unit 21 and back of the left and right sides, two sections to the bar shaped material that cuts off are dried rapidly, the bar shaped material that is positioned at subsequently on the post processing conveyer 32 is taken away by its conveyer, be transmitted and stride across cutting gap 20 and be positioned at bar shaped material on the preliminary treatment conveyer 31, and cut by high-pressure water knife once more subsequently.

Bar shaped material after being cut is transmitted rearward on post processing conveyer 32, successively through first spray equipment 41, second spray equipment 42, first drying unit 51 and second drying unit 52, thereby by spray application of additive or flavor enhancement or oil substances successively, be dried, once more by spray application of additive or flavor enhancement or oil substances, be dried once more, thereby the product that obtains preparing.

Because the bar shaped material that extruder is extruded is by a section cutting, so the product on the post processing conveyer 32 is a collection of, each batch product is when being sent to post processing conveyer 32 ends like this, drop on material-gathering device 33, conveyer belt 332 speed of this device are slower, thereby the material that makes subsequently batch also falls the road thereon, constantly transmitted then with the direction vertical with former direction of transfer, so just each batch materials is concentrated together, by drawing mechanism 34 transmission of level or inclination.Because the concave surface conveyer belt 342 of this drawing mechanism 34 is provided with some linear grooves consistent with the rod-shaped objects direction, described product is divided into each groove that is positioned at of one group one group, thereby avoids landing, alternation sum confusion.

At last, from drawing mechanism 34 terminal output products.

Foregoing is exemplifying of specific embodiments of the invention, for the wherein not equipment of detailed description and structure, should be understood to take existing common apparatus in this area and universal method to be implemented.

Claims (10)

1. a cutting and conveying system of extruder is characterized in that, comprises cutter sweep (2), preliminary treatment conveyer (31), post processing conveyer (32), gathering-device (33), drawing mechanism (34);

Preceding static drying unit (21) and back static drying unit (23) that described cutter sweep (2) comprises a high-pressure water knife (22) and is positioned at its both sides;

Described preliminary treatment conveyer (31) comprises transmission shaft (311) and plane belt (312);

Described post processing conveyer (32) comprises at least 3 transmission shafts (321) and plane belt (322);

Described gathering-device (33) comprises transmission shaft (331), the material baffle (333) of plane belt (332) and both sides at a slow speed; Described drawing mechanism (34) comprises the material baffle (343) of at least 3 transmission shafts (341), concave surface conveyer belt (342) and both sides;

Described each conveyer is followed successively by preliminary treatment conveyer (31), post processing conveyer (32), gathering-device (33) and drawing mechanism (34) along the material direction of transfer;

Described preliminary treatment conveyer (31), post processing conveyer (32) width is identical and be positioned on the same horizontal plane, is provided with the cutting gap (20) of 5mm～60mm between the two;

The direction of transfer of described preliminary treatment conveyer (31), post processing conveyer (32) is vertical with the direction of transfer of gathering-device (33), drawing mechanism (34);

Described gathering-device (33) is positioned at post processing conveyer (32) below, and the gap of 10mm～100mm with interval, and the side direction of the end of described post processing conveyer (32) and function conveyer (32) is overlapping up and down, and the length of lap is less than 1/10 of gathering-device (33) horizontal length.

2. transfer system as claimed in claim 1, it is characterized in that, the adjacent side that it is positioned at twin-screw or multi-screw extruder (11) and discharging opening (12) thereof is used for handling extruding through extruder (11) and sending away and do cutting, spraying and oven dry through the bar shaped material that discharging opening (12) is extruded;

Described preliminary treatment conveyer (31) is positioned at described discharging opening (12) below, and the gap of 10mm～100mm with interval, and the front end of described preliminary treatment conveyer (31) and discharging opening (12) are overlapping up and down, to guarantee that material all drops on the preliminary treatment conveyer (31);

The length of described lap is less than 1/10 of preliminary treatment conveyer (31) horizontal length.

3. transfer system as claimed in claim 1 is characterized in that, described high-pressure water knife (22) further comprise pressurizing chamber (221) with and under jetting orifice (222);

It is linear that described jetting orifice (222) is, and its length equates with the width of preliminary treatment conveyer (31) and post processing conveyer (32), and is positioned at the place, axis of cutting gap (20);

Static drying unit (21) is infra-red drying device or microwave drier before described, and further comprises instrument box (211) and transmitting terminal (212);

The described static drying unit in back (22) is infra-red drying device, microwave drier or ultraviolet drying device,, and further comprise instrument box (221) and transmitting terminal (222);

The transmitting terminal (222) of the transmitting terminal (212) of static drying unit (21) and the static drying unit in back (23) is linear before described, the two length equates with the width of preliminary treatment conveyer (31) and post processing conveyer (32), and lay respectively at the terminal edge of preliminary treatment conveyer (31) and the front edge of post processing conveyer (32), thereby, make its drying to avoid the storeroom bonding to being dried by two ends of the bar shaped material of high-pressure water knife (22) cut-out; Described cutter sweep (2) further comprises and is positioned at preliminary treatment conveyer (31) and post processing conveyer (32) below, and over against the collection box (24) of cutting gap (20), it is used to reclaim the particle that current that high-pressure water knife (22) penetrates and cutting are dropped.

4. transfer system as claimed in claim 1, it is characterized in that, the plane belt (312) of described preliminary treatment conveyer (31) is provided with gear with the inner surface that transmission shaft (311) is in contact with one another, and the gear on this gear and transmission shaft (311) surface is meshing with each other, to realize synchronous driving.

5. transfer system as claimed in claim 1, it is characterized in that, the plane belt (322) of described post processing conveyer (32) is provided with gear with the inner surface that transmission shaft (321) is in contact with one another, and the gear on this gear and transmission shaft (321) surface is meshing with each other, to realize synchronous driving.

6. transfer system as claimed in claim 1, it is characterized in that, the plane belt at a slow speed (332) of described gathering-device (33) is provided with gear with the inner surface that transmission shaft (331) is in contact with one another, and the gear on this gear and transmission shaft (331) surface is meshing with each other, to realize synchronous driving;

Described gathering-device (33) is positioned at post processing conveyer (32) below and vertical with its direction of transfer, many groups bar shaped material that described post processing conveyer (32) transmits drops at a slow speed on the plane belt (332) one by one, pile up mutually, pool one group of material, subsequently along being transmitted by plane belt (332) at a slow speed, thereby make the bar shaped material locate to be collected arrangement at gathering-device (33) with direction of transfer is vertical before direction;

Described material baffle (333) is used to prevent that material from skidding off.

7. transfer system as claimed in claim 1, it is characterized in that, the concave surface conveyer belt (342) of described drawing mechanism (34) is provided with gear with the inner surface that transmission shaft (341) is in contact with one another, and the gear on this gear and transmission shaft (341) surface is meshing with each other, to realize synchronous driving;

Described concave surface conveyer belt (342) outer surface has the arc groove (345) of continuous distributed, slides to prevent the material on it; Described arc groove (345) is the arc concave configuration that is surrounded by the most advanced and sophisticated projection (343) around it and (344), its radian is 50 °～130 °, be line style distribution and vertical long apart from conveyer belt (342) outer surface with direction of transfer, thereby make the strip material level in each arc groove (345) inside, thereby the bar shaped material is divided into groups;

Described material baffle (343) is used to prevent that material from skidding off.

8. transfer system as claimed in claim 1 is characterized in that, described transfer system further comprises first spray equipment (41), second spray equipment (42), first drying unit (51) and second drying unit (52);

Along flow direction of material, described first spray equipment (41), first drying unit (51), the adjacent successively top that is arranged on post processing conveyer (32) of second spray equipment (42) with second drying unit (52), four contour and and the plane belt (322) of post processing conveyer (32) between the gap of 100mm～300mm at interval;

Described first spray equipment (41) comprises conveying pipeline (411) and spray material port (412) from top to bottom, and described second spray equipment (42) comprises conveying pipeline (421) and spray material port (422) from top to bottom;

Described spray material port (412) and (422) are respectively applied for the material in conveying pipeline (411) and (421) evenly are sprayed on the bar shaped material that is positioned at plane belt (322);

Described first drying unit (51) comprises breather pipe (511) and exhaust outlet (512) from top to bottom, and described second drying unit (52) comprises breather pipe (521) and exhaust outlet (522) from top to bottom;

Described exhaust outlet (512) and (522) are respectively with the evenly ejection at a high speed of the hot-air in breather pipe (511) and (521), thereby drying is positioned at the bar shaped material on plane belt (322) and (332).

9. transfer system as claimed in claim 1 is characterized in that, described gathering-device (33) and drawing mechanism (34) are positioned on the same horizontal plane.

10. transfer system as claimed in claim 1 is characterized in that, described gathering-device (33) is horizontal distribution, and described drawing mechanism (34) is positioned at gathering-device (33) below and coupled;

Described drawing mechanism (34) is 5 °～35 ° angles with horizontal direction.

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