CN113883850A - Factory building construction material drying process system - Google Patents

Abstract

The application relates to a factory building construction material drying processing system, it is used for carrying out the air heater of drying processing to powdered material on filling bucket and the installation repacking bucket including filling the bucket and installing, be equipped with the chamber of filling that is used for filling powdered material in filling the bucket, filling the bucket and being located the accent department rotation in filling the chamber and being connected with and rotate the lid, air heater fixed connection rotates in the lateral wall of lid again, just still set up the venthole that supplies steam exhaust on the capping of rotation lid, the center department fixedly connected with main motor of lid, main motor is towards fixedly connected with main puddler on the output shaft of filling bucket one side, main puddler is equipped with stirring fan blade, still be equipped with the montant flabellum the same with air heater quantity on the lateral wall of rotation lid, still fixedly connected with drives on the output shaft of main motor, the both ends and the rotation lid relatively fixed connection of driving piece, this application has the effect that can carry out abundant drying to the powder type material in the section of thick bamboo of drying.

Description

Factory building construction material drying process system

Technical Field

The application relates to the technical field of building material processing, in particular to a drying treatment system for a plant building material.

Background

At present, a building material drying device is a device for drying powdery materials in the building industry, and the powdery building materials can be dried more through the building material drying device, so that the influence on the normal use of the building materials caused by the fact that the building materials are wet and bonded together is avoided.

The existing building material drying device comprises a drying drum, wherein a heating wire is arranged on the side wall of the drying drum, and when the building material is dried, the building material is placed into the drying drum, and the heating wire is heated to generate heat to dry the building material. In order to make building material dry more even, still can set up the (mixing) shaft and stir the material in the section of thick bamboo of drying, when the (mixing) shaft rotates like this, building material flows in the section of thick bamboo of drying under the effect of (mixing) shaft to can give off with higher speed the moisture, and also be favorable to building material thermally equivalent, improve the effect of drying.

In the above-mentioned related art, the inventor believes that the stirring shaft can only rotate circumferentially, and the stirring shaft can only stir building materials circumferentially, and can not move in other directions, so that the stirring form of the stirring shaft to the building materials is single, and thus the moving range of the stirring rods on the stirring shaft is limited, and part of the building materials accumulated at the bottom of the stirring cylinder can not be directly stirred by the stirring rods (such as the building materials between adjacent stirring rods), and therefore the drying effect of the drying cylinder needs to be further improved.

Disclosure of Invention

The application provides a factory building construction material drying process system has the effect that can carry out abundant drying to the powder type material in the section of thick bamboo of drying.

The application provides a factory building construction material drying process system adopts following technical scheme:

a drying treatment system for factory building materials,

preferably, be used for carrying out drying process's air heater to powdered material on filling bucket and the installation repacking bucket including filling the bucket, be equipped with the chamber of filling that is used for filling powdered material in filling the bucket, it is located the accent department rotation in the chamber of filling the chamber and is connected with and rotates the lid to fill the bucket, air heater fixed connection rotates in the lateral wall of lid again, just still set up the venthole that supplies steam exhaust on the capping of rotation lid, the center department fixedly connected with main motor of lid, fixedly connected with main puddler is gone up to main motor towards the output shaft of filling bucket one side, main puddler is equipped with stirring fan blade, still be equipped with the montant flabellum the same with air heater quantity on the lateral wall of rotation lid, still fixedly connected with drives on the output shaft of main motor, the both ends and the rotation lid relatively fixed connection of driving piece.

Through this scheme, through the rotation that rotates the lid, make the air heater also can rotate to the realization carries out the omnidirectional to the dust class material of packing in the bucket and covers the drying, through the rotation of main puddler and inciting of vertical flabellum simultaneously, drives the dust form material and removes, makes the dust class material of being extruded below can obtain abundant drying as far as.

Preferably, the montant flabellum is opened towards one side of filling the bucket centre of a circle and is had the slide rail, sliding connection has the piece of grabbing in the slide rail, it has the thru hole of a plurality of intercommunications piece bodies of grabbing to open on the piece of grabbing, and is adjacent when the lateral wall of grabbing piece is hugged closely each other, it is a plurality of it forms hourglass hopper-shaped to grab the piece, just it is located the bottom of filling the bucket to leak the less one side of hopper-shaped diameter, the slide rail comprises rake and the vertical portion that vertical direction was seted up, vertical portion is more close to the bottom of filling the bucket in the rake.

Through this scheme, when grabbing a intercombination formation and leaking hopper-shaped, the dusty material that lies in between the piece of grabbing this moment will move along with the removal of grabbing the piece, changes the position of dusty material through grabbing the piece, makes the dusty material of being overstocked in the below can overturn to the top, makes dusty material can obtain more comprehensive drying.

Preferably, stirring fan's quantity is the same with the quantity of grabbing the piece, the one end that the piece of grabbing is close to the packing bucket can contact with main puddler, stirring fan's one end and main puddler fixed connection, just stirring fan is less than 90 degrees with the contained angle that main puddler formed towards main motor direction, follows stirring fan's length direction is equipped with a plurality of balls.

Through this scheme, when grabbing piece and stirring fan blade contact, it slides in order to guide on stirring fan blade and snatchs a looks mutual separation to snatch the piece, and conveniently grabs through the ball and get the piece and roll on stirring fan blade.

Preferably, be equipped with the pulling rope in the slide rail, the pulling rope is laid along the track shape of slide rail, the slide rail is worn out to the one side that vertical portion was kept away from to the tilting part to the pulling rope, the one end fag end and the main puddler fixed connection of pulling rope, the rotation that the pulling rope is along with main puddler can twine on main puddler, grab the entity that inserts in the slide rail and the rope body fixed connection of pulling rope.

Through this scheme, the power supply of grabbing piece, main puddler is the same, has the effect of practicing thrift the external energy, will grab through pulling the rope and get and be connected with main puddler, through pulling how much decision of rope winding on main puddler and grabbing reciprocating of piece, accords with green energy-conserving principle.

Preferably, still open horizontal hole on the montant flabellum, horizontal hole and vertical portion intercommunication, horizontal hole rotates and is connected with the dwang, two tip of dwang are located the outside in horizontal hole, the supplementary flabellum of the equal fixedly connected with in tip of dwang, another end and the dwang fixed connection of pulling the rope, just the pulling rope can twine on the dwang, still be equipped with the coil spring in the horizontal hole, the one end and the pulling rope fixed connection of coil spring, the other end and the dwang fixed connection of coil spring.

Through this scheme, the auxiliary fan blade that is located filling bucket side bottom is when rotating, is through pulling the rope drive, need not other power supply application of force, and rotates the dust form material of filling a barrel side bottom through auxiliary fan blade to reach and carry out comparatively comprehensive stirring to filling bucket dust form material.

Preferably, the side surface of the grabbing piece is coated with a heat preservation film, and the heat preservation film is also provided with through holes communicated with the heat preservation film.

Through this scheme, the heat in the packing bucket is absorbed to the heat preservation membrane, makes the difficult glutinous piece of getting of moist powdered material.

Preferably, the rotating cover is rotatably connected with a plurality of rollers on one side contacting with the filling barrel, and the rollers are arranged along the circumference of the circumferential layer of the rotating cover.

Through this scheme, the gyro wheel reaches the purpose of sparingly rotating lid pivoted turning force through reducing the frictional force that rotates the lid and load between the bucket to increase the life who rotates lid and filling bucket.

Preferably, the rotating cover is fixedly connected with a rubber pad, and the rubber pad is positioned on one side of the rotating cover facing the filling barrel and is arranged at intervals on the rollers.

Through this scheme, rotate the lid and change when on the packing bucket, the rubber pad is extruded, rotates the lid through the rubber pad reinforcing and loads the gas tightness between the bucket, reduces the loss of steam.

Preferably, a through hole is formed in the main stirring rod and is communicated with the whole main stirring rod, an air heater is fixedly connected to the end portion, connected with the main motor, of the driving rod, an air transfer hole is formed in the stirring fan blade and is communicated with the through hole, and a plurality of exhaust holes are formed in the air transfer hole towards one side of the ball.

Through the scheme, hot air entering the through hole is discharged from the bottom of the through hole and the exhaust hole respectively, and hot air discharged from the through hole can be used for performing enhanced blowing and drying on the powdery material at the bottommost part of the filling barrel; the hot air exhausted from the exhaust holes can play a role in further enhancing the drying of the powdery material in the grabbing piece, and can blow away the powdery material clamped between the adjacent balls to keep the balls to rotate randomly.

Preferably, the bottom of the main stirring rod is also provided with a bottom fan blade fixedly connected with the main stirring rod, and the bottom fan blade can be contacted with the bottom of the filling barrel.

Through this scheme, the bottom flabellum contacts in the bottom of filling the bucket, makes the powdered material that is located filling bucket bottommost also can be rotated to reach and carry out more comprehensive stirring to the powdered material in the filling bucket, make it dry more easily.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the material in the stirring cavity is stirred through the main stirring rod, and the material at the bottom of the stirring barrel can be effectively cut through the grabbing piece moving up and down, so that the dusty material can be fully heated;

2. the stirring barrel is also internally provided with auxiliary fan blades and bottom fan blades, so that the dust materials at the bottommost part can be stirred and moved, the dust materials at all positions in the stirring barrel can be exposed, and sufficient drying can be achieved;

3. the gyro wheel can play the effect that the convenient lid that rotates changes, and the rubber pad plays the effect that reduces the steam that is located the packing bucket and runs off.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic cross-sectional view of the salient fill cavity of an embodiment of the present application;

FIG. 3 is a schematic cross-sectional view of the embodiment of the present application highlighting the shape of the slide track and the grooves in the main stirring rod;

FIG. 4 is a schematic view of the structure of the grabbing member moving to the stirring fan blade according to the embodiment of the present disclosure.

FIG. 5 is a schematic view of the embodiment of the present application highlighting the rubber pad and the roller in the rotating cover.

Fig. 6 is an enlarged schematic view of a portion a of fig. 4.

Description of reference numerals: 1. filling the barrel; 2. a hot air blower; 3. filling the cavity; 4. rotating the cover; 5. an air outlet; 6. a main motor; 7. a main stirring rod; 8. a stirring fan blade; 9. a vertical fan blade; 10. a driver; 11. a slide rail; 12. grasping the part; 13. through holes; 14. an inclined portion; 15. a vertical portion; 16. a ball bearing; 17. pulling the rope; 18. a bottom layer fan blade; 19. a rubber pad; 20. a transverse bore; 21. rotating the rod; 22. auxiliary fan blades; 23. a coil spring; 24. a heat preservation film; 25. a roller; 26. a through hole; 27. a gas transmission hole; 28. and (4) exhausting holes.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses factory building construction material drying process system.

Referring to fig. 1 and 2, the drying treatment system for the factory building construction materials comprises a filling barrel 1, wherein a filling cavity 3 for placing the powder materials is formed in the filling barrel 1. The opening of the filling barrel 1 is also provided with a rotary cover 4, and the rotary cover 4 is rotatably connected with the filling barrel 1. A plurality of hot air blowers 2 for drying the powdery material filled in the filling barrel 1 are fixedly connected to the rotating cover 4, and the hot air blowers 2 are arranged in a circumferential array. The machine case of the air heater 2 is fixed on the cover surface of the rotating cover 4, the blowing nozzle of the air heater 2 penetrates through the side wall of the rotating cover 4 and faces to the central point of the rotating cover 4, and a pipeline is arranged between the air heater 2 and the blowing nozzle. The center of the cover surface of the filling cover is also rotatably connected with a main stirring rod 7, one end of the main stirring rod 7 is fixedly connected with a main motor 6, and the main motor 6 is a servo motor. The other end of the main stirring rod 7 is inserted into the filling cavity 3 to stir the powdery material in the filling barrel 1. The powdered material is dried by hot air of the hot air blower 2, and simultaneously, water vapor is discharged from the air outlet 5 along with the hot air.

Referring to fig. 2 and 3, a driving member 10 is further fixedly connected to the main stirring rod 7, an end of the driving member 10 is fixedly connected to the rotating cover 4, and the driving member 10 drives the main stirring rod 7 to rotate together with the rotating cover 4, so that the rotation rates of the main stirring rod 7 and the rotating cover 4 are the same. The side wall of the rotating cover 4 is also fixedly connected with vertical fan blades 9 with the same number as the air heaters 2, one side of the vertical fan blades 9 facing the center of the filling barrel 1 is provided with a slide rail 11, and the slide rail 11 is divided into an inclined part 14 and a vertical part 15 from top to bottom. A grabbing piece 12 is connected in the sliding rail 11 in a sliding manner, the grabbing piece is arc-shaped, and one end of the grabbing piece 12 close to the air heater 2 is closer to the vertical fan blade 9 than one end of the grabbing piece 12 far away from the air heater 2. Adjacent gripping members can be in contact with each other, and when adjacent gripping members 12 are in contact with each other, all gripping members 12 form a funnel. When the gripping elements 12 slide downwards in the slide rail 11, the powdery material partially submerges the gripping elements 12, and when the gripping elements 12 start to slide upwards, the powdery material in the gripping elements 12 is also carried along by the gripping elements 12 and is gripped. Due to the plurality of through-holes 13 provided in the gripping elements 12, when the height of the gripping elements 12 on the slide rail 11 increases, parts of the powdery material may also fall out from between the gripping elements 12 through the through-holes 13. The movement of the gripping elements 12 one above the other brings about the pressing of the powdered material at the bottom, so that the powdered material deposited at the bottom of the filling tub 1 can be dried more sufficiently.

Referring to fig. 2 and 4, the main stirring rod 7 is further provided with stirring blades 8, the number of which is the same as that of the grabbing pieces 12, an included angle formed between each stirring blade 8 and the main stirring rod 7 towards the main motor 6 is smaller than 90 degrees, the stirring blades 8 are further provided with a plurality of balls 16, and the balls 16 are uniformly arranged along the length direction of the stirring blades 8. When the gripping elements 12 are moved downwards and are gradually embedded in the powdered material, the gripping elements 12 are located further and further away from the stirrer blades 8, and when the gripping elements 12 are moved downwards to a very great distance, the free ends of the gripping elements 12 will no longer be in contact with the main stirrer 7, and all the gripping elements 12 now form a funnel, which is filled with the powdered material between the gripping elements 12. When the gripping members 12 start to move upwards, the powdered material located between the gripping members 12 moves with them. When the gripping member 12 is in contact with the stirring fan blades 8, the gripping member 12 is moved to the intersection point of the vertical part 15 and the inclined part 14, and with the continued movement of the gripping member 12, the end of the gripping member 12 is moved into the inclined part 14, and the free end of the gripping member 12 is in contact with the stirring fan blades 8 and is moved to the stirring fan blades 8. When the grabbing pieces 12 move to the stirring fan blades 8, the grabbing pieces 12 are in contact with the balls 16, the balls 16 drive the grabbing pieces 12 to move towards the extending direction of the inclined portion 14, the adjacent grabbing pieces 12 are separated from each other, the powder materials on the grabbing pieces 12 drop from the gaps between the grabbing pieces 12 in a large area, and the powder materials on the bottom layer are grabbed upwards. When the gripping elements 12 are moved from the inclined portion 14 to the vertical portion 15 and to the point of intersection of the inclined portion 14 and the vertical portion 15, the gripping elements 12 again merge and begin the next cycle of gripping the powdery material.

Referring to fig. 3 and 5, a pulling rope 17 for driving the grabbing part 12 to move is further arranged in the sliding rail 11, the pulling rope 17 is laid along the opening shape of the sliding rail 11, and the rope end of the pulling rope 17 penetrates out of the sliding rail 11 from the side of the inclined part 14 far away from the vertical part 15 and is fixedly connected with the main stirring rod 7. When the main motor 6 starts to work, the main motor 6 drives the main stirring rod 7 to rotate, the pulling rope 17 is wound on the main stirring rod 7 more and more along with the rotation of the main stirring rod 7, and the grabbing piece starts to move upwards along with the change of the pulling rope 17. When the grab moves to the end of the inclined portion 14, at which time the main stirring rod 7 has rotated in that direction to a limit number of turns, then the main motor 6 starts to change the direction of rotation, so that the main stirring rod 7 starts to rotate against the previous direction of rotation, and at this time the pulling cord 17 starts to fall off the main stirring rod 7, the grab also starts to move downward, at which time the main stirring rod 7 has rotated in that direction to a limit number of turns, and after which the main stirring rod 7 starts to rotate again, whereby the vertical movement of the grab 12 is achieved.

Referring to fig. 4 and 6, a transverse hole 20 communicated with the vertical portion 15 is further formed at the bottom of the vertical fan blade 9, and the slotting direction of the transverse hole 20 is perpendicular to the vertical portion 15. A rotating rod 21 is rotatably connected in the transverse hole 20, and both ends of the rotating rod 21 penetrate through the transverse hole 20 and are fixedly connected with auxiliary fan blades 22. A coil spring 23 for driving the auxiliary fan 22 to rotate is further arranged in the transverse hole 20, one end of the coil spring 23 is fixedly connected with the vertical fan 9, and the other end of the coil spring 23 is fixedly connected with the rotating rod 21. When the grabbing piece 12 moves upwards, the rope 17 is pulled to drive the coil spring 23 to move, so that the coil spring 23 is stretched and straightened, and the auxiliary fan blades 22 are driven to rotate along with the rotation of the coil spring 23 and stir the powdered material at the bottom; when the grasping element 12 moves downwards, the coil spring 23 will gradually restore to its original shape due to its own elasticity, and the coil spring 23 will also rotate during the process of restoring the coil spring 23, and at this time, the coil spring 23 can drive the auxiliary fan 22 to rotate to stir the powdered material at the bottom. Since the heavy powdered material is picked up by the gripper 12, the weight of the powdered material at the bottom of the filling tub 1 is not so heavy, and the auxiliary fan 22 can stir the powdered material at the bottom of the filling tub 1. And the powder materials at all positions of the bottom in the filling barrel 1 can be fully stirred due to the rotation of the rotating cover 4

Referring to fig. 3 and 5, a through hole 26 is further formed in the main stirring rod 7, and the through hole 26 communicates with the entire main stirring rod 7 and connects both ends of the main stirring rod 7. An air heater 2 is further provided at the end of the driving lever connected to the main motor 6, and the air heater 2 blows air into the through hole 26. The stirring fan blade 8 is provided with an air transfer hole 27, the air transfer hole 27 is communicated with the through hole 26, and the side of the stirring fan blade 8 facing the ball 16 is also provided with an air exhaust hole 28 communicated with the air transfer hole 27. When the hot air blower 2 blows air into the through hole 26, hot air is discharged from the opening at the bottom of the through hole 26 and the exhaust hole 28. The hot air discharged from the through holes 26 blows the powdery material at the lowermost part of the packing bucket 1 to dry, and the hot air discharged from the exhaust holes 28 can perform both the function of further drying the powdery material in the gripper 12 and the function of blowing off the powdery material sandwiched between the balls 16, thereby preventing the balls 16 from stopping rotating due to the interference of the powdery material.

Referring to fig. 2, the side surface of the grabbing piece 12 is coated with a heat preservation film 24, and the heat preservation film 24 is also provided with a through hole 13 communicated with the heat preservation film 24. The partial absorption of the hot gas in the filling chamber 3 by the insulating film 24 makes it less likely that the powdery material adhering to the gripper 12 sticks to the gripper 12 and also serves to further dry the powdery material already adhering to the gripper 12. And the bottom layer fan blades 18 are fixedly connected to the bottom of the main stirring rod 7, and the bottom layer fan blades 18 can be in contact with the bottom of the filling barrel 1. The bottom layer fan blades 18 contact and stir the powdery material at the bottommost part of the filling barrel 1, so that the powdery material is not easy to precipitate and solidify.

Referring to fig. 5, a roller 25 is further rotatably connected to a side of the rotary cover 4 contacting the packing bucket 1, and the roller 25 is circumferentially disposed along a circumferential layer of the rotary cover 4. The rotating cover 4 is also bonded with a rubber pad 19 at the gap of the roller 25. When the rotating cover 4 rotates, the rotating cover 4 is convenient to rotate through the roller 25, the friction force between the rotating cover 4 and the filling barrel 1 is reduced, the service life of the rotating cover 4 and the filling barrel 1 is prolonged, and the rubber pad 19 can further reduce the loss of heat in the barrel to achieve a good sealing effect.

The implementation principle is as follows: when the worker wants to fully dry the dust materials in the filling barrel 1, the worker only needs to start the main motor 6, the main motor 6 simultaneously drives the main stirring rod 7 and the vertical fan blades 9 to rotate, the pulling rope 17 wound on the main stirring rod 7 is wound more or separated from the main stirring rod 7 along with the rotation of the main stirring rod 7, the grabbing piece 12 is driven to move up and down along with the change of the pulling rope 17, the grabbing piece 12 can pull the dust materials at the bottom of the filling barrel 1, the dust materials at the bottom cannot be accumulated at the bottom of the filling barrel 1 and cannot be fully dried, the auxiliary fan blades 22 can also turn the dust materials at the edge of the filling barrel 1 along with the change of the pulling rope 17, the dust materials right below the filling barrel 1 are directly heated by hot air flowing out of the through hole 26, and the dust materials are fully dried by multi-directional stirring, The heating enables the dust-like material in the filling barrel 1 to be dried more thoroughly in a shorter time.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a factory building construction material drying process system, is used for carrying out drying process's air heater (2) to powdered material including filling bucket (1) and installing on filling bucket (1), be equipped with filling chamber (3) that are used for filling powdered material in filling bucket (1), its characterized in that: filling barrel (1) is located the accent department rotation of filling chamber (3) and is connected with rotation lid (4), air heater (2) fixed connection rotates the lateral wall of lid (4) again, just still set up on the capping of rotation lid (4) and supply steam exhaust venthole (5), fixedly connected with main motor (6) are located to the center of lid, fixedly connected with main puddler (7) on main motor (6) the output shaft towards filling barrel (1) one side, main puddler (7) are equipped with stirring fan blade (8), still be equipped with the montant flabellum the same with air heater (2) quantity on the lateral wall of rotation lid (4), still fixedly connected with drives piece (10) on the output shaft of main motor (6), the both ends of driving piece (10) and rotation lid (4) relatively fixed connection.

2. The plant building material drying treatment system of claim 1, wherein: the utility model discloses a packing bucket, including montant flabellum, slide rail (11) are opened towards one side of packing bucket (1) centre of a circle, sliding connection has in slide rail (11) grabs and gets piece (12), it has thru hole (13) of a plurality of intercommunications to grab a body to grab to open on the piece, and is adjacent when the lateral wall of grabbing piece (12) hugs closely each other, and is a plurality of grab and get piece (12) and form hourglass hopper-shaped, just the less one side of diameter that leaks hopper-shaped is located the bottom of packing bucket (1), slope (14) and vertical portion (15) that slide rail (11) were seted up by vertical direction constitute, vertical portion (15) are more close to the bottom of packing bucket (1) than slope (14).

3. The plant building material drying treatment system of claim 2, wherein: the quantity of stirring fan blade (8) is the same with the quantity of grabbing the piece, the one end that the piece of grabbing is close to packing bucket (1) can contact with main puddler (7), the one end and main puddler (7) fixed connection of stirring fan blade (8), just stirring fan blade (8) are less than 90 degrees with main puddler (7) towards the contained angle that main motor (6) orientation formed, follow the length direction of stirring fan blade (8) is equipped with a plurality of balls (16).

4. The plant building material drying treatment system of claim 2, wherein: be equipped with in slide rail (11) and pull rope (17), pull rope (17) are laid along the track shape of slide rail (11), pull rope (17) are followed slope portion (14) and are kept away from one side of vertical portion (15) and are worn out slide rail (11), the one end fag end and main puddler (7) fixed connection of pulling rope (17), pull rope (17) can twine on main puddler (7) along with the rotation of main puddler (7), grab and get the entity that inserts in slide rail (11) and the rope body fixed connection who pulls rope (17).

5. The plant building material drying treatment system of claim 4, wherein: still open horizontal hole (20) on the montant flabellum, horizontal hole (20) and vertical portion (15) intercommunication, horizontal hole (20) are rotated and are connected with dwang (21), two tip of dwang (21) are located the outside of horizontal hole (20), the equal fixedly connected with auxiliary flabellum (22) of tip of dwang (21), another end and dwang (21) fixed connection of pulling rope (17), just pull rope (17) and can twine on dwang (21), still be equipped with spring (23) in horizontal hole (20), the one end and the pulling rope (17) fixed connection of spring (23), the other end and dwang (21) fixed connection of spring (23).

6. The plant building material drying treatment system of claim 3, wherein: the side surface of the grabbing piece (12) is coated with a heat preservation film (24), and the heat preservation film (24) is also provided with a through hole (13) communicated with the heat preservation film (24).

7. The plant building material drying treatment system of claim 1, wherein: one side of rotating cover (4) and filling barrel (1) contact rotates and is connected with a plurality of gyro wheels (25), gyro wheel (25) set up along the circumference layer circumference of rotating cover (4).

8. The plant building material drying treatment system of claim 7, wherein: the rotary cover (4) is also fixedly connected with a rubber pad (19), and the rubber pad (19) is positioned on one side of the rotary cover (4) facing the filling barrel (1) and arranged at intervals on the rollers (25).

9. The plant building material drying treatment system of claim 3, wherein: it has perforating hole (26) to open in main puddler (7), perforating hole (26) intercommunication whole main puddler (7), just the also fixedly connected with air heater (2) of tip that the initiative pole is connected with main motor (6), also open on stirring fan blade (8) and pass gas pocket (27), pass gas pocket (27) and perforating hole (26) intercommunication, just it has a plurality of exhaust holes (28) to pass gas pocket (27) to open towards one side of ball (16).

10. The plant building material drying treatment system of claim 1, wherein: the bottom of the main stirring rod (7) is also provided with a bottom layer fan blade (18) fixedly connected with the main stirring rod (7), and the bottom layer fan blade (18) can be contacted with the bottom of the filling barrel (1).

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