CN112179085A

CN112179085A - Drying device for producing nylon heat insulation strip master batches and working method thereof

Info

Publication number: CN112179085A
Application number: CN202011073078.8A
Authority: CN
Inventors: 李守宏; 罗会鹏
Original assignee: Anhui Zhongxin Hongwei Technology Co ltd
Current assignee: Anhui Zhongxin Hongwei Technology Co ltd
Priority date: 2020-10-09
Filing date: 2020-10-09
Publication date: 2021-01-05

Abstract

The invention discloses a drying device for producing nylon heat insulation strip master batches, which comprises a bottom plate and a first screen, wherein a support rod is fixedly installed at the top of the bottom plate, a motor is arranged at the top end of a drying bin, a notch is formed in the bottom of an outer shell, the top end of a main rod is connected with the motor, two ends of the bottom rod are connected with the inner wall of the drying bin, a pull rod is fixedly installed at one end of the first screen, a straight block is arranged at the other end of the second screen, and sliding rods are arranged inside two sides of a connecting block, which are provided with openings, of transverse grooves. This drying device is used in production of nylon heat insulating strip master batch when using, not only can carry out the work of preventing blockking up to the heat insulating master batch of feed inlet, can also simplify the method of ejection of compact simultaneously for whole device can improve the production efficiency of integrated device in process of production, and also can be convenient for inspect and clear up the work of repairing the device inside.

Description

Drying device for producing nylon heat insulation strip master batches and working method thereof

Technical Field

The invention relates to the technical field of heat insulation strip master batch production, in particular to a drying device for producing nylon heat insulation strip master batches and a working method thereof.

Background

The drying device for producing the heat insulation strip master batches is a part which is very important for drying the nylon heat insulation strip master batches because master batches can carry a large amount of moisture in production in the production process of the heat insulation master batches, and if the drying degree of the heat insulation master batches does not reach the specified standard, the drying device for producing the nylon heat insulation strip master batches has great influence on subsequent work, so that the drying device for producing the nylon heat insulation strip master batches is needed, and the traditional drying device for producing the nylon heat insulation strip master batches has the following problems;

1. in the traditional drying device for producing the nylon heat insulation strip master batches, in the process of drying the nylon heat insulation strip master batches, inconvenience exists in screening early-stage moisture of the nylon heat insulation strip master batches, and the nylon heat insulation strip master batches are bonded on a screen during blanking, so that subsequent blanking work is inconvenient;

2. when taking out the thermal-insulated master batch after the screening, traditional drying device for producing nylon heat insulating strip master batch carries out drying work to the thermal-insulated master batch of nylon after, there is a lot of dirt in the inside of device, and traditional drying device for producing nylon heat insulating strip master batch has inconveniently when clearing up inside to operating procedure is complicated, is unfavorable for reducing the convenience of work.

Therefore, the drying device for producing the master batches of the nylon heat insulation strips and the working method are provided so as to solve the problems.

Disclosure of Invention

The invention aims to provide a drying device for producing nylon heat insulation strip master batches and a working method, and aims to solve the problems that in the process of drying the nylon heat insulation master batches, a non-contact water level detection device in the market proposed by the background technology is inconvenient to screen out early-stage moisture of the nylon heat insulation strip master batches, the nylon heat insulation strip master batches are bonded on a screen during blanking, subsequent blanking work is inconvenient, and the drying device for producing the nylon heat insulation strip master batches is inconvenient to clean the inside, complicated in operation steps and not beneficial to reduction of convenience of work.

In order to achieve the purpose, the invention provides the following technical scheme:

a drying device for producing nylon heat insulation strip master batches comprises a bottom plate and a first screen, wherein a supporting rod is fixedly mounted at the top of the bottom plate, the top end of the supporting rod is connected with a drying bin, a discharge hole is mounted at the bottom of the drying bin, a feed inlet is fixedly mounted at one side of the drying bin, a motor is arranged at the top end of the drying bin and is connected with a top plate, an outer shell is mounted at the bottom surface of the top plate, a connecting shaft is connected with the bottom of the motor, a notch is formed in the bottom of the outer shell, a limiting block is connected inside the notch, one side of the limiting block is connected with the bottom of the inner shell, a main rod penetrates through the middle of the outer shell, the top end of the main rod is connected with the motor, the bottom end of the main rod is connected with the bottom rod, the two ends of the bottom rod are connected, and a heating block is arranged inside the drying bin, a positioning block is arranged at the bottom of the main rod, a groove is formed in the positioning block, a groove is formed in the bottom of the groove, one end of the first screen is connected with a connecting block, a limiting groove is formed in the connecting block, a top buckle is embedded in the limiting groove, one end of the top buckle is connected with the groove, a vertical groove is formed in the top buckle, a vertical rod is embedded in the vertical groove, one end of the vertical rod is connected with the limiting groove, a spring is connected to the vertical rod, a pull rod is fixedly arranged at one end of the first screen, the pull rod is provided with the spring, a second screen is arranged inside the first screen, a shifting plate is fixedly arranged at one end of the second screen, a straight block is arranged at the other end of the second screen, a positioning groove is formed in the straight block, and a buckle is connected to the inside of the positioning groove, simultaneously the bottom of buckle is provided with the spring, the opening has been seted up to the inside both sides of connecting block, and opening and straight piece interconnect to open-ended one side has seted up the cross slot, the inside of cross slot is provided with the litter, and is connected with location knot and thread slipping on the litter to location knot and thread slipping and buckle interconnect.

Preferably, the connection mode of bottom plate and bracing piece is welded connection, and the number of bracing piece is provided with 4.

Preferably, the outer shell is attached to the inner shell, and the inner shell forms a sliding structure with the outer shell through the notch and the limiting block.

Preferably, the winding is connected with the auger axle on the mobile jib, and the bottom and the sill bar of mobile jib rotate to be connected to mobile jib and locating piece constitute revolution mechanic.

Preferably, the top buckle forms a telescopic structure through a spring and a limiting groove, is connected with the vertical rod in a sliding mode through a vertical groove, and is connected with the groove in a clamping mode.

Preferably, the second screen cloth is connected for the laminating with the connected mode of first screen cloth, and the mesh size of second screen cloth and first screen cloth is inconsistent to second screen cloth and group board structure as an organic whole.

Preferably, the straight blocks form a clamping structure through the buckles and the positioning buckles, and the straight blocks are symmetrically distributed about the transverse center line of the second screen.

Preferably, the slide fastener and the transverse groove form a sliding structure through a slide rod, and the number of the positioning fastener and the slide fastener is 2.

The invention provides another technical scheme which is a working method of a drying device for producing nylon heat insulation strip master batches, and the working method comprises the following steps:

the method comprises the following steps: firstly, the whole device needs to be installed at a proper position;

step two: controlling the feeding hole to enable the vibration feeding hole to be in butt joint with other devices, and conveying the nylon heat insulation strip master batches into the drying bin due to the fact that the feeding hole is obliquely distributed at the bottom of the feeding hole to finish feeding work of the device;

step three: controlling a motor to drive the main rod to rotate, and further driving a packing auger shaft wound and connected on the main rod to rotate, so as to break up the nylon heat insulation strip master batches in the drying bin;

step four: after the nylon heat insulation strip master batches enter the drying bin, the redundant moisture is discharged out of the device through the first screen and the discharge hole, and meanwhile, the moisture can be screened out in the drying process;

step five: the shifting rod and the shifting plate are controlled to drive the second screen to move, so that the first screen and the second screen are staggered to change the sizes of meshes, and the adjustment work of the screens is finished;

step six: through the pulling to the pull rod for the pull rod drives first screen cloth and connecting block and slides in the inside of locating piece, and then the block of connecting block and locating piece can be fixed first screen cloth, accomplishes the fixed work to first screen cloth.

Compared with the prior art, the invention has the beneficial effects that: when the screening device for producing the heat insulation strip master batches is used, the anti-blocking work can be performed on the heat insulation master batches at the feeding hole, and meanwhile, the discharging method can be simplified, so that the production efficiency of the whole device can be improved in the production process of the whole device, and the inspection and cleaning and repairing work can be performed on the interior of the device conveniently;

1. in the whole device drying process, the motor can drive the main shaft to rotate so as to drive the auger shaft to rotate, so that the auger shaft can conveniently break up nylon heat insulation strips in the device, the nylon heat insulation strips can be uniformly heated, and the whole drying effect of the device is improved;

2. the second screen is driven to slide in the first screen by pulling the shifting plate, and meanwhile, the straight block at one end of the second screen is clamped with the positioning buckle in the connecting block, so that the second screen can be fixed while moving, and nylon heat insulation strips bonded on the screen can be extruded in a staggered manner, and the cleaning work of the nylon heat insulation strips bonded on the screen is facilitated;

3. through the pulling to the pull rod, drive first screen cloth and slide in the inside in dry storehouse, and then drive the connecting block and slide in the inside of locating piece to the connecting block of being convenient for carries out the block through top knot and recess, is favorable to carrying out the unloading to the nylon heat insulating strip, has improved holistic work efficiency.

Drawings

FIG. 1 is a schematic cross-sectional front view of the present invention;

FIG. 2 is a schematic front elevational view of the present invention;

FIG. 3 is a schematic view of the connection structure of the outer shell and the inner shell according to the present invention;

FIG. 4 is a schematic view of a first screen and tie bar connection according to the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 6 is a schematic view of a second screen and a connecting block according to the present invention;

FIG. 7 is an enlarged view of the structure at B in FIG. 6 according to the present invention.

In the figure: 1. a base plate; 2. a support bar; 3. a drying bin; 4. a discharge port; 5. a feed inlet; 6. a motor; 7. a top plate; 8. a housing; 9. an inner shell; 10. a notch; 11. a limiting block; 12. a connecting shaft; 13. A main rod; 14. a packing auger shaft; 15. a heating block; 16. positioning blocks; 17. grooving; 18. a groove; 19. A first screen; 20. connecting blocks; 21. a limiting groove; 22. a vertical rod; 23. buckling; 24. a vertical slot; 25. A spring; 26. a pull rod; 27. a second screen; 28. dialing a plate; 29. straightening; 30. positioning a groove; 31. Buckling; 32. an opening; 33. a transverse groove; 34. a slide rod; 35. positioning buckles; 36. sliding and buckling; 37. a bottom rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a drying device for producing nylon heat insulation strip master batches comprises a bottom plate 1, a support rod 2, a drying bin 3, a discharge port 4, a feed port 5, a motor 6, a top plate 7, an outer shell 8, an inner shell 9, a notch 10, a limiting block 11, a connecting shaft 12, a main rod 13, a packing auger shaft 14, a heating block 15, a positioning block 16, a groove 17, a groove 18, a first screen 19, a connecting block 20, a limiting groove 21, a vertical rod 22, a top buckle 23, a vertical groove 24, a spring 25, a pull rod 26, a second screen 27, a shifting plate 28, a straight block 29, a positioning groove 30, a buckle 31, an opening 32, a transverse groove 33, a slide rod 34, a positioning buckle 35, a slide buckle 36 and a bottom rod 37, wherein the support rod 2 is fixedly installed at the top of the bottom plate 1, the top end of the support rod 2 is mutually connected with the drying bin 3, the discharge port 4 is installed at the bottom of the drying bin 3, the feed, the motor 6 is connected with the top plate 7, the bottom surface of the top plate 7 is provided with the outer shell 8, the bottom of the motor 6 is connected with the connecting shaft 12, the bottom of the outer shell 8 is provided with a notch 10, the inside of the notch 10 is connected with the limiting block 11, one side of the limiting block 11 is connected with the bottom of the inner shell 9, the middle part of the outer shell 8 penetrates through the main rod 13, the top end of the main rod 13 is connected with the motor 6, the bottom end of the main rod 13 is connected with the bottom rod 37, the two ends of the bottom rod 37 are connected with the inner wall of the drying bin 3, the main rod 13 is fixedly provided with the auger shaft 14, the inside of the drying bin 3 is provided with the heating block 15, the bottom of the main rod 13 is provided with the positioning block 16, the inside of the positioning block 16 is provided with the slot 17, the bottom of the slot 17 is provided with the groove, and the inside of the limit groove 21 is inlaid with a top buckle 23, and one end of the top buckle 23 is connected with the groove 18, the inside of the top buckle 23 is provided with a vertical groove 24, and the inside of the vertical groove 24 is inlaid with a vertical rod 22, and one end of the vertical rod 22 is connected with the limit groove 21, and the vertical rod 22 is connected with a spring 25, one end of the first screen 19 is fixedly provided with a pull rod 26, and the pull rod 26 is provided with the spring 25, and the inside of the first screen 19 is provided with a second screen 27, and one end of the second screen 27 is fixedly provided with a shifting plate 28, the other end of the second screen 27 is provided with a straight block 29, and the inside of the straight block 29 is provided with a positioning groove 30, and the inside of the positioning groove 30 is connected with a buckle 31, and the bottom of the buckle 31 is provided with the spring 25, and the inside of two sides of the connecting block 20 is provided with openings 32, and the openings, a slide rod 34 is arranged inside the transverse groove 33, a positioning buckle 35 and a slide buckle 36 are connected to the slide rod 34, and the positioning buckle 35 and the slide buckle 36 are connected with the buckle 31.

The connecting mode of bottom plate 1 and bracing piece 2 is welded connection, and the number of bracing piece 2 is provided with 4, makes things convenient for bottom plate 1 and bracing piece 2 to support the device, has improved the stability of whole device.

Outer shell 8 is connected with the laminating of inner shell 9, and inner shell 9 passes through notch 10 and stopper 11 and constitutes sliding construction with outer shell 8, guarantees that inner shell 9 can improve stopper 11 and notch 10 and slide in outer shell 8's inside, is favorable to follow-up inside the clearing up of device.

The winding is connected with auger shaft 14 on mobile jib 13, and the bottom of mobile jib 13 rotates with sill bar 37 to be connected, and mobile jib 13 constitutes revolution mechanic with locating piece 16, thereby auger shaft 14 of being convenient for can break up thermal-insulated master batch when rotatory, is favorable to carrying out even stoving work to thermal-insulated master batch.

The top buckle 23 forms a telescopic structure with the limiting groove 21 through a spring 25, the top buckle 23 is connected with the vertical rod 22 in a sliding mode through the vertical groove 24, the top buckle 23 is connected with the groove 18 in a clamping mode, the top buckle 23 is conveniently clamped with the groove 18, and therefore fixing work of the connecting block 20 is facilitated.

Second screen cloth 27 is connected for the laminating with first screen cloth 19's connected mode, and second screen cloth 27 is inconsistent with first screen cloth 19's mesh size to second screen cloth 27 with dial board 28 structure as an organic whole for the surplus first screen cloth 19 staggered connection of second screen cloth 27, thereby be convenient for extrude the work to the heat insulating strip master batch on the screen cloth, be favorable to subsequent unloading work.

The straight blocks 29 form a clamping structure with the positioning buckles 35 through the buckles 31, and the straight blocks 29 are symmetrically distributed about the transverse center line of the second screen 27, so that the fixing work of the straight blocks 29 is facilitated, and the subsequent adjusting work of the second screen 27 is facilitated.

The slide fastener 36 forms a sliding structure with the transverse groove 33 through the slide rod 34, and the number of the positioning fasteners 35 and the slide fastener 36 is 2, so that the second screen mesh 27 can be conveniently adjusted in two positions, and the subsequent drying work of the heat-insulating master batches with different diameters is facilitated.

In order to better show a specific use method of the non-contact water level detection device, the working method of the drying device for producing the nylon heat insulation strip master batches in the embodiment includes the following steps:

step two: controlling the feeding port 5 to enable the vibrating feeding port 5 to be in butt joint with other devices, and then conveying the nylon heat insulation strip master batches into the drying bin 3 by the feeding port 5 due to the oblique distribution of the bottom of the feeding port 5 to finish the feeding work of the device;

step three: controlling the motor 6 to enable the motor 6 to drive the main rod 13 to rotate, and further driving the auger shaft 14 wound and connected on the main rod 13 to rotate, so as to break up the nylon heat insulation strip master batches in the drying bin 3;

step four: after the nylon heat insulation strip master batch enters the drying bin 3, redundant moisture is discharged out of the device through the first screen mesh 19 and the discharge hole 4, and meanwhile, the moisture can be screened out in the drying process;

step five: the shifting lever and the shifting plate 28 are controlled, so that the shifting plate 28 drives the second screen mesh 27 to move, the first screen mesh 19 and the second screen mesh 27 are enabled to change the sizes of meshes in a staggered mode, and the screen mesh adjusting work is completed;

step six: through the pulling to pull rod 26 for pull rod 26 drives first screen cloth 19 and connecting block 20 and slides in the inside of locating piece 16, and then the block of connecting block 20 and locating piece 16 can be fixed first screen cloth 19, accomplishes the fixed work to first screen cloth 19.

The working principle of the embodiment is as follows: when the drying device and the working method for producing the nylon heat insulation strip master batches are used, firstly, the device is required to be moved to a specified position, then a feed inlet at the top end of the device is butted with other devices, so that the nylon heat insulation strip master batches in the other devices can smoothly enter a feed inlet 5 at the top of the device, then enter the drying bin 3 through the feed inlet 5, then a motor 6 is started, the motor 6 rotates on a connecting shaft 12 arranged in a top plate 7, a main rod 13 is further driven to rotate, meanwhile, the main rod 13 rotates on a bottom rod 37, an auger shaft 14 connected on the main rod 13 also rotates, the auger shaft 14 breaks up the nylon heat insulation strip master batches in the drying bin 3, a heating block 15 on the inner wall of the drying bin 3 can uniformly heat the nylon heat insulation strip master batches, and the auger shaft 14 breaks up the nylon heat insulation strip master batches to turn over the nylon heat insulation strip master batches, each master batch can be dried by the heating block 15, so that the overall drying effect is improved, and the drying work of the master batches of the nylon heat insulation strip is completed;

when the dried nylon heat insulation strip master batch in the device needs to be taken out, according to the graph shown in fig. 3-5, the pull rod 26 is pulled to drive the first screen mesh 19 and the connecting block 20 to move, then the top buckle 23 in the limiting groove 21 formed in the connecting block 20 slides to compress the spring 25 in the limiting groove 21, then the pull rod 26 is pulled to slide the first screen mesh 19 and the connecting block 20 in the slot 17, so that the first screen mesh 19 is separated from the positioning block 16, the nylon heat insulation strip master batch is conveniently and subsequently taken out from the device through the first screen mesh 19 and the discharge hole 4, and the spring 25 in the inner wall of the drying bin 3 is compressed while the first screen mesh 19 slides outwards, so that the spring 25 generates a reaction force on the first screen mesh 19, the subsequent spring 25 can push the first screen mesh 19 and the connecting block 20 to enter the groove 17 formed in the positioning block 16, so that the top buckle 23 slides on the vertical rod 22 arranged in the limiting groove 21, meanwhile, the vertical rod 22 can slide in the vertical groove 24, the limiting work of the vertical rod 22 on the top buckle 23 is facilitated, meanwhile, the spring 25 on the vertical rod 22 can push the top buckle 23 to be clamped with the groove 18 at the bottom of the groove 17, and the fixing work of the first screen mesh 19 is completed;

when the device is fed, the residual nylon heat insulation strip master batch on the first screen mesh 19 needs to be separated, according to fig. 6-7, the second screen mesh 27 slides inside the first screen mesh 19 by pulling the pulling plate 28, so that the nylon heat insulation strip master batch adhered on the first screen mesh 19 is separated due to the staggered movement of the first screen mesh 19 and the second screen mesh 27, meanwhile, the mesh size of the first screen mesh 19 can be changed by the movement of the second screen mesh 27, drying and moisture screening work of the nylon heat insulation strip master batches with different diameters is facilitated, while the straight block 29 at one end of the second screen mesh 27 slides inside the connecting block 20 while the buckle 31 inside the positioning groove 30 formed inside the straight block 29 compresses the spring 25, and then the spring 25 pushes the buckle 31 to form a clamping with the positioning buckle 35 on the slide rod 34 inside the transverse groove 33, after the fixing work of the second screen mesh 27 is finished, the straight block 29 is pushed continuously to enable the buckle 31 to pass through the slide buckle 36, the straight block 29 is pulled to enable the buckle 31 to drive the slide buckle 36 to slide on the slide rod 34, when the slide buckle 36 is overlapped with the positioning buckle 35, the straight block 29 and the second screen mesh 27 can be moved, and the positioning buckle 35 is provided with two positions which can adjust the second screen mesh 27, so that the adjusting work of the first screen mesh 19 is finished;

when needs wash the device inside, through the promotion to inner shell 9 for inner shell 9 slides in the notch 10 that the shell 8 bottom was seted up through stopper 11, makes inner shell 9 can coincide with shell 8, thereby can open and shut the device top, is convenient for clear up the device inside from this, and the bracing piece 2 and the bottom plate 1 of device bottom can guarantee the stability of device, have improved the stability of integrated device, thereby accomplish a series of works.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a drying device is used in production of nylon heat insulating strip master batch, includes bottom plate (1) and first screen cloth (19), its characterized in that: the top of the bottom plate (1) is fixedly provided with a support rod (2), the top end of the support rod (2) is connected with the drying bin (3), the bottom of the drying bin (3) is provided with a discharge hole (4), one side of the drying bin (3) is fixedly provided with a feed inlet (5), the top end of the drying bin (3) is provided with a motor (6), the motor (6) is connected with a top plate (7), the bottom surface of the top plate (7) is provided with an outer shell (8), the bottom of the motor (6) is connected with a connecting shaft (12), the bottom of the outer shell (8) is provided with a notch (10), the inside of the notch (10) is connected with a limit block (11), one side of the limit block (11) is connected with the bottom of the inner shell (9), the middle part of the outer shell (8) is penetrated by a main rod (13), and the top end of the main rod (13, and the bottom of mobile jib (13) and sill bar (37) interconnect, the both ends of sill bar (37) and the inner wall interconnect of dry storehouse (3), and fixed mounting has auger shaft (14) on mobile jib (13), and dry storehouse (3) inside is provided with heating block (15), locating piece (16) are installed to the bottom of mobile jib (13), and the inside of locating piece (16) has seted up fluting (17), and the bottom of fluting (17) has seted up fluted (18), the one end of first screen cloth (19) is connected with connecting block (20), and the inside of connecting block (20) has seted up spacing groove (21), and the inside of spacing groove (21) is inlayed and is had top knot (23), the one end and recess (18) interconnect of top knot (23) simultaneously, the inside of top knot (23) has seted up perpendicular groove (24), and the inside of perpendicular groove (24) is inlayed and is had montant (22), one end of the vertical rod (22) is connected with the limiting groove (21), the vertical rod (22) is connected with a spring (25), one end of the first screen (19) is fixedly provided with a pull rod (26), the pull rod (26) is provided with the spring (25), the first screen (19) is internally provided with a second screen (27), one end of the second screen (27) is fixedly provided with a shifting plate (28), the other end of the second screen (27) is provided with a straight block (29), the straight block (29) is internally provided with a positioning groove (30), the positioning groove (30) is internally connected with a buckle (31), the bottom of the buckle (31) is provided with the spring (25), the two sides of the connecting block (20) are internally provided with openings (32), the openings (32) are connected with the straight block (29), and one side of the openings (32) is provided with a transverse groove (33), a sliding rod (34) is arranged inside the transverse groove (33), a positioning buckle (35) and a sliding buckle (36) are connected to the sliding rod (34), and the positioning buckle (35), the sliding buckle (36) and the buckle (31) are connected with each other.

2. The drying device for producing the nylon heat insulation strip master batches of claim 1 is characterized in that: the bottom plate (1) is connected with the support rods (2) in a welding mode, and 4 support rods (2) are arranged.

3. The drying device for producing the nylon heat insulation strip master batches of claim 1 is characterized in that: the outer shell (8) is attached to the inner shell (9), and the inner shell (9) forms a sliding structure with the outer shell (8) through the notch (10) and the limiting block (11).

4. The drying device for producing the nylon heat insulation strip master batches of claim 1 is characterized in that: the winding is connected with auger shaft (14) on mobile jib (13), and the bottom and sill bar (37) of mobile jib (13) rotate and be connected to mobile jib (13) and locating piece (16) constitute revolution mechanic.

5. The drying device for producing the nylon heat insulation strip master batches of claim 1 is characterized in that: the top buckle (23) forms a telescopic structure with the limiting groove (21) through a spring (25), the top buckle (23) is connected with the vertical rod (22) in a sliding mode through the vertical groove (24), and the top buckle (23) is connected with the groove (18) in a clamping mode.

6. The drying device for producing the nylon heat insulation strip master batches of claim 1 is characterized in that: the second screen (27) is connected with the first screen (19) in a fitting manner, the meshes of the second screen (27) and the first screen (19) are different in size, and the second screen (27) and the shifting plate (28) are of an integrated structure.

7. The drying device for producing the nylon heat insulation strip master batches of claim 1 is characterized in that: the straight blocks (29) form a clamping structure through the clamping buckles (31) and the positioning buckles (35), and the straight blocks (29) are symmetrically distributed about the transverse center line of the second screen (27).

8. The drying device for producing the nylon heat insulation strip master batches of claim 1 is characterized in that: the slide fastener (36) and the transverse groove (33) form a sliding structure through the slide rod (34), and 2 positioning fasteners (35) and 2 slide fasteners (36) are arranged.

9. The working method of the drying device for producing the nylon heat insulation strip master batch as claimed in claim 1 is characterized in that: the method comprises the following steps:

step two: controlling the feeding port (5) to enable the vibrating feeding port (5) to be in butt joint with other devices, and conveying the nylon heat insulation strip master batches into the drying bin (3) due to the fact that the feeding port (5) is obliquely distributed at the bottom of the feeding port to finish feeding work of the device;

step three: controlling the motor (6) to enable the motor (6) to drive the main rod (13) to rotate, and further drive the auger shaft (14) wound and connected on the main rod (13) to rotate, so as to break up the nylon heat insulation strip master batches in the drying bin (3);

step four: after the nylon heat insulation strip master batch enters the drying bin (3), redundant moisture is discharged out of the device through the first screen (19) and the discharge hole (4), and meanwhile, moisture can be screened out in the drying process;

step five: the shifting lever and the shifting plate (28) are controlled, so that the shifting plate (28) drives the second screen (27) to move, the first screen (19) and the second screen (27) are staggered to change the sizes of meshes, and the screen is adjusted;

step six: through the pulling to pull rod (26), make pull rod (26) drive first screen cloth (19) and connecting block (20) and slide in the inside of locating piece (16), and then the block of connecting block (20) and locating piece (16) can be fixed first screen cloth (19), the fixed work of completion to first screen cloth (19).