CN112277185A

CN112277185A - Screening device and screening method for heat insulation strip master batch production

Info

Publication number: CN112277185A
Application number: CN202011056391.0A
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: 2020-09-29
Filing date: 2020-09-29
Publication date: 2021-01-29

Abstract

The invention discloses a screening device for producing heat insulation strip master batches, which comprises a base, wherein universal wheels are fixedly installed at the bottom of the base, vertical rods are arranged on the bottom surfaces of two sides of a screening bin, a screen is arranged inside the screening bin, a containing groove is formed in one side of the top of the screening bin, a bottom groove is formed in the top end of the screening bin, a notch is formed in a positioning block, a positioning groove is formed in the bottom of a snap fastener, and a positioning rod is installed in the middle of the sliding groove. This sieving mechanism is used in production of 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 maintenance work to device inside.

Description

Screening device and screening method for heat insulation strip master batch production

Technical Field

The invention relates to the technical field of heat insulation strip master batch screening, in particular to a screening device and a screening method for heat insulation strip master batch production.

Background

The screening device for producing the heat insulation strip master batches is a device for screening the heat insulation master batches due to different master batches in the production process of the heat insulation master batches, the master batches are required to be cut in the production process of the heat insulation master batches, but the cut master batches have different sizes and can influence subsequent work, and the traditional screening device for producing the heat insulation strip master batches has the following problems;

1. in the process of feeding the heat-insulation master batches by using the traditional screening device for producing the heat-insulation strip master batches, the heat-insulation master batches are often blocked in a feeding hole, so that the subsequent screening work of the heat-insulation master batches is not facilitated, and the overall working efficiency is influenced;

2. when taking out the thermal-insulated master batch after the screening, traditional for the production of heat insulating strip master batch sieving mechanism get the material to thermal-insulated master batch and have inconvenience to waste time and energy, be unfavorable for the convenience that improves work.

Therefore, a screening device and a screening method for producing the heat insulation strip master batches are provided so as to solve the problems.

Disclosure of Invention

The invention aims to provide a screening device and a screening method for producing heat-insulating strip master batches, and aims to solve the problems that in the process of feeding heat-insulating master batches, the heat-insulating master batches often form blockage in a feeding hole, the subsequent screening work of the heat-insulating master batches is not facilitated, the heat-insulating master batches are inconvenient to take, time and labor are wasted, and the work convenience is not facilitated to improve by a non-contact type water level detection device in the market in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a screening device for producing heat-insulating strip master batches comprises a base, universal wheels are fixedly mounted at the bottom of the base, a vibration mechanism is mounted on the top surface of the base, the top surface of the vibration mechanism is connected with the bottom surface of a screening bin, vertical rods are arranged on the bottom surfaces of two sides of the screening bin, the vertical rods are connected with springs, limiting grooves are formed in the two sides of the base, the screening bin is connected with the limiting grooves through the vertical rods, a screen is arranged in the screening bin, a shell is fixedly mounted on one side of the screening bin, a slope is arranged at the bottom of the shell, a containing groove is formed in one side of the top of the screening bin, a hinge is mounted in the containing groove, a connecting block is fixedly mounted at one end of the hinge, a bottom groove is formed in the top of the screening bin, the bottom groove is connected with the bottom end of the hinge, one side of the bottom groove is, the positioning block is internally provided with a notch, a snap fastener is embedded in the middle end of the positioning block, the middle part of the snap fastener is provided with a hole, the snap fastener is mutually connected with a groove arranged on the connecting block through the hole, the bottom of the snap fastener is provided with a positioning groove, the bottom of the positioning block is provided with a sliding groove, the bottom end of the snap fastener is mutually connected with the sliding groove, the middle part of the sliding groove is provided with a positioning rod, the positioning rod is mutually connected with a spring, the snap fastener is mutually connected with the positioning block through the positioning groove and the positioning rod, the top end of the screening bin at one side of the positioning block is connected with a connecting port, the connecting port is mutually connected with a feeding port, a cross rod penetrates through the connecting port and the feeding port, one end of the cross rod is mutually connected with the connecting port through a, the inside in screening storehouse is provided with the auger axle, and the one end of auger axle is connected with the motor to the outer end of auger axle is provided with the drain pan, one side fixed mounting of drain pan has the square, and the square passes through connecting axle and bottom plate interconnect, and one side of bottom plate is provided with dials the board.

Preferably, the vibration mechanisms are symmetrically distributed about a longitudinal center line of the base, and the number of the vibration mechanisms is 2.

Preferably, the screening bin forms a sliding structure with the base through a vertical rod and a limiting groove, the vertical rod is connected with the spring in a winding mode, and the length of the vertical rod is larger than that of the limiting groove.

Preferably, the screen cloth is distributed in the middle of the screening bin in an inclined mode, meshes on two sides of the screen cloth are different in size, and one side of the screen cloth is as high as one side of the slope.

Preferably, the side view of the hinge is a triangular structure, and the bottom of the hinge and the top of the screening bin form a sliding structure through a bottom groove.

Preferably, the snap fastener penetrates through the notch, the bottom end of the snap fastener and the bottom of the positioning block form a telescopic structure through the spring and the sliding groove, and the snap fastener and the groove form a clamping structure through the opening.

Preferably, the cross rod runs through the feed inlet, and the cross rod is connected with the connector rotation to equidistant distribution has the puddler on the cross rod.

Preferably, the auger shaft is attached to the bottom shell, the square block is welded to the bottom shell, the bottom plate is rotatably connected with the connecting shaft, and meanwhile, the bottom plate and the shifting plate are of an integrated structure.

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

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

step two: the vibration mechanism is controlled to vibrate the screening bin, so that the screen mesh is driven to vibrate, and therefore the heat insulation strip master batches on the screen mesh can be screened, and the screening work of the heat insulation strip master batches is completed;

step three: when the screening bin vibrates, the vertical rods arranged at the bottom of the screening bin can slide in the limiting grooves formed in the base, and then the springs wound and connected on the vertical rods can absorb shock and rebound the screening bin, so that the screening bin can vibrate stably;

step four: the hinge is driven to slide in the bottom groove by pulling the connecting block, and then the connecting block is connected with the positioning block in a clamping manner to finish the sealing work of the device;

step five: controlling a motor to drive a cross rod to rotate and further drive a stirring rod to rotate at the bottom of the feeding hole, so that the heat-insulating master batches are scattered, and the anti-blocking work of the feeding hole is completed;

step six: through stirring the dial plate, drive the bottom plate and pass through the connecting axle and rotate on the square, and then make the thermal-insulated master batch after the screening get into the auger axle, accomplish the work of taking out to thermal-insulated master batch.

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 maintenance work on the interior of the device can be facilitated;

1. in the screening process of the whole device, the screening bin can be vibrated by the vibration mechanism arranged on the top surface of the base, so that the heat-insulating master batches are uniformly screened by the screen mesh in the screening bin, and meanwhile, the vertical rods and the limiting grooves at the bottom of the screening bin can absorb shock of the screening bin, so that the stability of the whole device is improved;

2. the hinge slides in the bottom groove formed in the top end of the screening bin through the bottom groove, meanwhile, the accommodating groove can accommodate and store the hinge, and the hinge can be fixed through a clamping structure of the connecting block and the positioning block, so that the subsequent sealing effect on the screening bin is facilitated, and the overall protection effect is improved;

3. the rotation of motor can drive the horizontal pole and rotate, and then drives the puddler and rotate in the feed inlet to be convenient for break up the work to thermal-insulated master batch, be favorable to preventing that thermal-insulated master batch from producing in the feed inlet and blockking up, be favorable to subsequent screening work.

Drawings

FIG. 1 is a schematic view of the overall elevation structure of the present invention;

FIG. 2 is a schematic cross-sectional front view of the present invention;

FIG. 3 is a schematic view of the hinge and sump configuration of the present invention;

FIG. 4 is a schematic view of a connection structure of a connecting block and a positioning block according to the present invention;

FIG. 5 is a schematic view of the structure of the feed inlet and the connecting port according to the present invention;

FIG. 6 is a schematic view of the internal structure of the feed inlet of the present invention;

FIG. 7 is a schematic view of the connection structure of the bottom plate and the bottom case of the present invention;

FIG. 8 is a schematic view of the connection structure between the auger shaft and the bottom casing; .

In the figure: 1. a base; 2. a universal wheel; 3. a vibration mechanism; 4. a limiting groove; 5. a screening bin; 6. a vertical rod; 7. a spring; 8. screening a screen; 9. a slope; 10. a housing; 11. a receiving groove; 12. folding; 13. connecting blocks; 14. a bottom groove; 15. positioning blocks; 16. a groove; 17. snapping; 18. opening a hole; 19. a notch; 20. positioning a groove; 21. positioning a rod; 22. a chute; 23. a connecting port; 24. a cross bar; 25. a motor; 26. a stirring rod; 27. a connecting shaft; 28. a feed inlet; 29. a packing auger shaft; 30. a bottom case; 31. a square block; 32. a base plate; 33. and (5) dialing a plate.

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. 1-8, the present invention provides a technical solution: a screening device for producing heat insulation strip master batches comprises a base 1, universal wheels 2 are fixedly mounted at the bottom of the base 1, a vibration mechanism 3 is mounted on the top surface of the base 1, the top surface of the vibration mechanism 3 is mutually connected with the bottom surface of a screening bin 5, vertical rods 6 are arranged on the bottom surfaces of two sides of the screening bin 5, the vertical rods 6 are mutually connected with springs 7, limiting grooves 4 are formed in the two sides of the base 1, the screening bin 5 is mutually connected with the limiting grooves 4 through the vertical rods 6, a screen 8 is arranged in the screening bin 5, a shell 10 is fixedly mounted on one side of the screening bin 5, a slope 9 is arranged at the bottom of the shell 10, a containing groove 11 is formed in one side of the top of the screening bin 5, a hinge 12 is mounted in the containing groove 11, a connecting block 13 is fixedly mounted at one end of the hinge 12, a bottom groove 14 is formed in the top end of the screening bin 5, and the bottom groove, one side of the bottom groove 14 is connected with a positioning block 15, a notch 19 is arranged inside the positioning block 15, a snap fastener 17 is embedded inside the middle end of the positioning block 15, the middle part of the snap fastener 17 is provided with an opening 18, the snap fastener 17 is connected with a groove 16 arranged on the connecting block 13 through the opening 18, the bottom of the snap fastener 17 is provided with a positioning groove 20, the bottom of the positioning block 15 is provided with a sliding groove 22, the bottom end of the snap fastener 17 is connected with the sliding groove 22, the middle part of the sliding groove 22 is provided with a positioning rod 21, the positioning rod 21 is connected with the spring 7, the snap fastener 17 is connected with the positioning block 15 through the positioning groove 20 and the positioning rod 21, the top end of the screening bin 5 at one side of the positioning block 15 is connected with a connecting port 23, the connecting port 23 is connected with a feeding port 28, a cross rod 24 penetrates between the connecting, and the other side of the cross bar 24 is connected with a motor 25, the motor 25 is fixedly arranged on the side vertical surface of the connecting port 23, meanwhile, the cross bar 24 is fixedly provided with a stirring rod 26, the screening bin 5 is internally provided with an auger shaft 29, one end of the auger shaft 29 is connected with the motor 25, the outer end of the auger shaft 29 is provided with a bottom shell 30, one side of the bottom shell 30 is fixedly provided with a square 31, the square 31 is mutually connected with a bottom plate 32 through a connecting shaft 27, and one side of the bottom plate 32 is provided with a shifting plate 33.

Vibrations mechanism 3 is about the vertical centerline symmetric distribution of base 1, and the number of vibrations mechanism 3 is provided with 2, conveniently can carry out even vibrations to the device is whole at vibrations mechanism 3, can also carry out support work to the device simultaneously.

Screening storehouse 5 constitutes sliding construction through montant 6 and spacing groove 4 and base 1, and montant 6 is connected with the winding of spring 7 to the length of montant 6 is greater than the length of spacing groove 4, and montant 6 and spacing groove 4 can carry out spacing work to the device, and spring 7 can carry out the shock attenuation to the device, is favorable to improving the holistic stability of device.

The screen cloth 8 is the slant and distributes in the middle-end inside of screening storehouse 5, and the both sides mesh size of screen cloth 8 is different to one side of screen cloth 8 and the highly uniform of 9 one sides of slope, different screen cloth 8 can carry out multistage screening to the heat insulating strip master batch, and slope 9 is provided with simultaneously and does benefit to subsequent material work of getting.

The side view of fold paper 12 is the triangle-shaped structure, and the bottom of fold paper 12 passes through the bottom slot 14 and constitutes sliding construction with the top of screening storehouse 5, conveniently carries out drawing and shrink work to fold paper 12, is favorable to follow-up to seal the device, has improved the holistic leakproofness of device.

The snap 17 penetrates through the notch 19, the bottom end of the snap 17 forms a telescopic structure with the bottom of the positioning block 15 through the spring 7 and the sliding groove 22, and the snap 17 forms a clamping structure with the groove 16 through the open hole 18, so that when the snap 17 is operated, the connecting block 13 can be opened and closed, and the convenience of the whole operation is improved.

The cross rod 24 runs through the feed inlet 28, the cross rod 24 is rotatably connected with the connecting port 23, stirring rods 26 are distributed on the cross rod 24 at equal intervals, and the rotation of the cross rod 24 is guaranteed to drive the stirring rods 26 to rotate, so that the feed inlet 28 is convenient to prevent blockage, and the subsequent screening work is facilitated.

The packing auger shaft 29 is attached to the bottom shell 30, the square block 31 is welded to the bottom shell 30, the bottom plate 32 is rotatably connected with the connecting shaft 27, and meanwhile, the bottom plate 32 and the shifting plate 33 are of an integrated structure, so that the packing auger shaft 29 can conveniently discharge screened heat insulation strip master batches, and the discharging step can be simplified.

In order to better show a specific use method of the screening device for producing the heat insulation strip master batches, the screening method of the screening device for producing the heat insulation strip master batches in the embodiment includes the following steps:

step two: the vibration mechanism 3 is controlled, so that the vibration mechanism 3 vibrates the screening bin 5 to drive the screen 8 to vibrate, and therefore the heat insulation strip master batches on the screen 8 can be screened to complete the screening work of the heat insulation strip master batches;

step three: when the screening bin 5 vibrates, the vertical rod 6 arranged at the bottom of the screening bin 5 can slide in the limiting groove 4 formed in the base 1, and then the spring 7 wound and connected on the vertical rod 6 can absorb shock and rebound the screening bin 5, so that the screening bin 5 can vibrate stably;

step four: the hinge 12 is driven to slide in the bottom groove 14 by pulling the connecting block 13, and then the connecting block 13 is connected with the positioning block 15 in a clamping manner, so that the sealing work of the device is completed;

step five: controlling the motor 25 to enable the motor 25 to drive the cross rod 24 to rotate, and further drive the stirring rod 26 to rotate at the bottom of the feeding hole 28, so that the heat-insulating master batches are scattered, and the anti-blocking work of the feeding hole 28 is completed;

step six: through stirring the stirring plate 33, the bottom plate 32 is driven to rotate on the square block 31 through the connecting shaft 27, and then the screened heat insulation master batches enter the auger shaft 29, so that the heat insulation master batches are taken out.

The working principle of the embodiment is as follows: when the screening device and the screening method for producing the heat insulation strip master batches are used, firstly, the position of the device needs to be adjusted, when the position of the device is adjusted, the whole pushing device moves through the universal wheel 2, then when the whole device reaches the designated position, the master batch of the heat insulation strip is put into the feed inlet 28 at the top of the device, then the heat insulation strip master batch reaches the connecting opening 23 through the feed opening 28, and then the heat insulation strip master batch reaches the screen 8 in the screening bin 5, then the vibration mechanism 3 at the bottom of the screening bin 5 is started, then the vibration mechanism 3 drives the screening bin 5 to vibrate integrally, at the moment, the heat insulation strip master batches on the screen 8 enter the bottom of the screening bin 5 through the holes on the screen 8, the other heat insulation strip master batches can reach the outside of the device through the slope 9 and the shell 10, so that the whole screening work is completed;

in-process that carries out the vibrations screening at the device, when needing to carry out shock attenuation work to

screening storehouse

5, 5 bottom fixed mounting's montant 6 of screening storehouse can slide in the spacing groove 4 of seting up on base 1, spacing groove 4 at this moment can carry out spacing work to screening storehouse 5, avoid the device to rock about the in-process production of vibrations, winding spring 7 can carry out the shock attenuation to the screening storehouse 5 at top on the montant 6 simultaneously, avoid screening storehouse 5 too big at the in-process range of up-and-down motion, improve device's service life, thereby be convenient for can also kick-back when screening storehouse 5 descends to the device whole shock attenuation of carrying on. The resource loss is reduced;

when the device is used for feeding, the feed inlet 28 needs to be subjected to anti-blocking work, when the heat insulation strip master batches enter the feed inlet 28, the motor 25 outside the connecting port 23 can drive the cross rod 24 to rotate inside the feed inlet 28, meanwhile, the other end of the cross rod 24 can also rotate through the connecting shaft 27, and then the cross rod 24 can drive the stirring rod 26 to rotate, so that the stirring rod 26 can stir and break up the heat insulation strip master batches, the subsequent screening work of the heat insulation strip master batches is facilitated, and the heat insulation strip master batches are prevented from being blocked in the feed inlet 28;

when the device is closed, when the top of the screening bin 5 needs to be closed, the connecting block 13 is pulled, so that the connecting block 13 drives the hinge 12 to slide in the bottom groove 14 formed at the top end of the screening bin 5, until the connecting block 13 enters the notch 19 formed in the positioning block 15, then the groove 16 formed in the connecting block 13 is clamped with the opening 18 formed in the snap 17, so as to complete the fixing work of the connecting block 13, and the closing work of the screening bin 5 is completed, when the screening bin 5 needs to be opened, the bottom of the snap 17 is driven to slide in the sliding groove 22 by pushing the snap 17, meanwhile, the bottom of the snap 17 compresses the spring 7 arranged in the sliding groove 22, so that the spring 7 can push the snap 17 to rebound when the snap 17 is loosened, and meanwhile, the positioning groove 20 and the positioning groove 20 formed in the bottom of the snap 17 have a limiting function on the snap 17, the whole sealing work of the device is completed;

when getting the material to the device, when needing to take out the heat insulating strip master batch after the screening, stir group board 33, drive bottom plate 32 and move, bottom plate 32 can rotate on square 31 through connecting axle 27 after that, then because bottom plate 32's slope, drive the inside that the heat insulating strip master batch on the bottom plate 32 enters into drain pan 30, starter motor 25 after that, make motor 25 drive auger shaft 29 rotate, thereby auger shaft 29 drives the heat insulating strip master batch and removes, the above material work of getting to the heat insulating strip master batch of accomplishing, thereby accomplish a series of work.

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 sieving mechanism is used in production of heat insulating strip master batch, includes base (1), its characterized in that: the bottom of the base (1) is fixedly provided with universal wheels (2), the top surface of the base (1) is provided with a vibration mechanism (3), the top surface of the vibration mechanism (3) is mutually connected with the bottom surfaces of the screening bins (5), the bottom surfaces of two sides of the screening bins (5) are provided with vertical rods (6), the vertical rods (6) are mutually connected with springs (7), the limiting grooves (4) are arranged inside two sides of the base (1), the screening bins (5) are mutually connected with the limiting grooves (4) through the vertical rods (6), the screening bins (5) are internally provided with a screen (8), one side of the screening bins (5) is fixedly provided with a shell (10), the bottom of the shell (10) is provided with a slope (9), one side of the top of the screening bins (5) is provided with an accommodating groove (11), and the inside of the accommodating groove (11) is provided with a hinge (12), a connecting block (13) is fixedly installed at one end of the hinge (12), a bottom groove (14) is formed in the top end of the screening bin (5), the bottom groove (14) is connected with the bottom end of the hinge (12), one side of the bottom groove (14) is connected with a positioning block (15), a notch (19) is formed in the positioning block (15), a snap fastener (17) is embedded in the middle end of the positioning block (15), a hole (18) is formed in the middle of the snap fastener (17), the snap fastener (17) is connected with a groove (16) formed in the connecting block (13) through the hole (18), a positioning groove (20) is formed in the bottom of the snap fastener (17), a sliding groove (22) is formed in the bottom of the positioning block (15), the bottom end of the snap fastener (17) is connected with the sliding groove (22), and a positioning rod (21) is installed in the middle of the sliding groove (22), the positioning rod (21) is connected with the spring (7), the snap fastener (17) is connected with the positioning block (15) through the positioning groove (20) and the positioning rod (21), the top end of the screening bin (5) on one side of the positioning block (15) is connected with the connecting port (23), the connecting port (23) is connected with the feeding port (28), the cross rod (24) penetrates through the connecting port (23) and the feeding port (28), one end of the cross rod (24) is connected with the connecting port (23) through the connecting shaft (27), the other side of the cross rod (24) is connected with the motor (25), the motor (25) is fixedly installed on the side vertical surface of the connecting port (23), the stirring rod (26) is fixedly installed on the cross rod (24), the auger shaft (29) is arranged inside the screening bin (5), and one end of the auger shaft (29) is connected with the motor (25), and the outer end of the auger shaft (29) is provided with a bottom shell (30), one side of the bottom shell (30) is fixedly provided with a square block (31), the square block (31) is mutually connected with a bottom plate (32) through a connecting shaft (27), and one side of the bottom plate (32) is provided with a shifting plate (33).

2. The screening device is used in production of heat insulating strip master batch of claim 1, characterized in that: the vibration mechanisms (3) are symmetrically distributed about the longitudinal center line of the base (1), and 2 vibration mechanisms (3) are arranged.

3. The screening device is used in production of heat insulating strip master batch of claim 1, characterized in that: screening storehouse (5) constitute sliding construction through montant (6) and spacing groove (4) and base (1), and montant (6) and spring (7) winding are connected to the length of montant (6) is greater than the length of spacing groove (4).

4. The screening device is used in production of heat insulating strip master batch of claim 1, characterized in that: the screen cloth (8) is distributed obliquely in the middle end of the screening bin (5), meshes on two sides of the screen cloth (8) are different in size, and one side of the screen cloth (8) is consistent with the height of one side of the slope (9).

5. The screening device is used in production of heat insulating strip master batch of claim 1, characterized in that: the side view of the foldout (12) is a triangular structure, and the bottom of the foldout (12) forms a sliding structure with the top of the screening bin (5) through a bottom groove (14).

6. The screening device is used in production of heat insulating strip master batch of claim 1, characterized in that: the snap fastener (17) penetrates through the notch (19), the bottom end of the snap fastener (17) and the bottom of the positioning block (15) form a telescopic structure through the spring (7) and the sliding groove (22), and the snap fastener (17) and the groove (16) form a clamping structure through the opening (18).

7. The sieving mechanism is used in production of heat insulating strip master batch of claim 6, its characterized in that: the cross rod (24) penetrates through the feed inlet (28), the cross rod (24) is rotatably connected with the connecting port (23), and stirring rods (26) are distributed on the cross rod (24) at equal intervals.

8. The sieving mechanism is used in production of heat insulating strip master batch of claim 6, its characterized in that: the packing auger shaft (29) is attached to the bottom shell (30), the square block (31) is welded to the bottom shell (30), the bottom plate (32) is rotatably connected with the connecting shaft (27), and meanwhile, the bottom plate (32) and the shifting plate (33) are of an integrated structure.

9. The screening method of the screening device for producing the heat insulation strip master batches as claimed in claim 1, characterized in that: the method comprises the following steps:

step two: the vibration mechanism (3) is controlled to vibrate the screening bin (5) by the vibration mechanism (3) so as to drive the screen mesh (8) to vibrate, so that the heat insulation strip master batches on the screen mesh (8) can be screened to complete the screening work of the heat insulation strip master batches;

step three: when the screening bin (5) vibrates, the vertical rod (6) mounted at the bottom of the screening bin (5) can slide in the limiting groove (4) formed in the base (1), and then the spring (7) wound and connected on the vertical rod (6) can absorb shock and rebound the screening bin (5), so that the screening bin (5) can vibrate stably;

step four: the hinge (12) is driven to slide in the bottom groove (14) by pulling the connecting block (13), and then the connecting block (13) is connected with the positioning block (15) in a clamping manner, so that the sealing work of the device is completed;

step five: controlling a motor (25), so that the motor (25) drives a cross rod (24) to rotate, and further drives a stirring rod (26) to rotate at the bottom of a feeding hole (28), thereby scattering heat-insulating master batches and completing anti-blocking work on the feeding hole (28);

step six: the bottom plate (32) is driven to rotate on the square block (31) through the connecting shaft (27) by shifting the shifting plate (33), and then the screened heat-insulating master batches enter the auger shaft (29), so that the heat-insulating master batches are taken out.