CN113043496A

CN113043496A - Clout recovery plant is used in production of antistatic PE membrane master batch

Info

Publication number: CN113043496A
Application number: CN202110427881.5A
Authority: CN
Inventors: 陈庆伟; 傅万翔; 叶嫦嫦
Original assignee: Baoshen Science & Applied Technologies Co ltd
Current assignee: Baoshen Science & Applied Technologies Co ltd
Priority date: 2021-04-20
Filing date: 2021-04-20
Publication date: 2021-06-29

Abstract

The invention discloses excess material recovery equipment for producing antistatic PE film master batches, and particularly relates to the technical field of PE film master batches. In the stirring device, the rotating power shaft is arranged, and the stirring blades are matched with the convection holes, so that convection motion in the stirring process of the excess materials can be increased, the stirring is more uniform, the overall stirring speed of the equipment is improved, and the problems that the stirring speed of a common stirring device is low, the stirring is not thorough, the stirred materials are not uniform enough, and the reuse of the materials in the later period is influenced are solved.

Description

Clout recovery plant is used in production of antistatic PE membrane master batch

Technical Field

The invention relates to the technical field of PE film master batches, in particular to excess material recovery equipment for producing antistatic PE film master batches.

Background

The antistatic PE film master batch is an additive type efficient antistatic master batch of polyolefin plastic, and consists of a carrier, an antistatic agent and other additives, wherein the antistatic PE film master batch is added into the plastic, so that the self insulating property of a high polymer can be avoided, static electricity is generated, the antistatic PE film master batch can adapt to the packaging requirements of IT products and the production of special antistatic products, and the dustproof effect on the surfaces of the products is good.

However, in practical use, there still exist some disadvantages, such as:

(1) need use the agitator in, the clout is collected, and general agitator can not increase the convection current nature of material to reduce the stirring homogeneity of material, and then reduce the stirring speed of equipment, still reduce the comprehensiveness of stirring simultaneously, lead to the effect of stirring to reduce, reduce the whole practicality of equipment.

(2) Because the raw materials of membrane master batch are retrieved all the adhesion after, can not be timely separately stereotype them to lead to the unable processing in material later stage, also do not benefit to the storage in material later stage simultaneously, increase storage space, thereby reduce the recovery quality of clout, influence the later stage to the reuse of clout.

(3) The excess material after the design needs timely drying operation, so that the storage time limit of the excess material can be increased, the subsequent carrying and use can be facilitated, the general drying device cannot separate and dry the well-designed excess material in time, the material still has the effect of large-area accumulation, the drying efficiency is reduced, the drying thoroughness of the equipment is reduced, and the practicability of the equipment is reduced.

Disclosure of Invention

In order to overcome the defects in the prior art, the embodiment of the invention provides the excess material recovery device for producing the antistatic PE film master batches, and the rotary power shaft is arranged, and the stirring blades are matched with the surface increasing holes, so that the convection motion in the excess material stirring process can be increased, the stirring is more uniform, the overall stirring speed of the device is improved, and the problems in the background art are solved.

In order to achieve the purpose, the invention provides the following technical scheme: a surplus material recycling device for producing antistatic PE film master batches comprises a machine table and other devices arranged on the machine table,

the two lifting devices are symmetrically arranged on the end surface of the machine platform; the lifting device comprises a first supporting column, a lifting sliding column and a lifting sliding block, the lifting sliding column is arranged on the end face of the machine table through the first supporting column, and the lifting sliding block is arranged at the driving end of the lifting sliding column;

the stirring device is arranged between the lifting sliding blocks of the two lifting devices; the stirring device comprises a power box, a power machine, a lifting rod, a stirring tank, a residual material recovery pipe and a stirrer, wherein the lifting rod is fixed between two lifting sliding blocks, the power box is arranged at one end of the lifting rod, the power machine is arranged in the power box and is in driving connection with the power machine, the residual material recovery pipe is arranged at one side of the top of the stirring tank, the stirring tank is arranged at the middle position of the lifting rod, and the stirrer is arranged in the stirring tank and is in driving connection with the power machine; a sewage discharge groove is formed in the bottom end of one side of the stirring tank, and a material extruding device is detachably mounted at the bottom end of one side of the stirring tank;

and the collecting frame is arranged below the stirring device and used for collecting materials.

In some embodiments, the agitator includes power connector, the top demountable installation of power connector one side has the electric power box, the screens groove has been seted up to the bottom of power connector one side, the bottom demountable installation of power connector one side has rotatory power shaft, one side demountable installation of rotatory power shaft has the installation lantern ring, the top demountable installation of installation lantern ring one side has the stirring leaf, the convection hole has been seted up on the surface of stirring leaf.

In some embodiments, the number of the installation lantern ring is three, the number of the stirring leaves is a plurality of, the number of the convection holes is a plurality of, three the installation lantern ring and a plurality of the material of the stirring leaves is aluminum alloy material, a plurality of the diameter of the convection holes is one to two centimeters, the cross-sectional area of the installation lantern ring is greater than the cross-sectional area of the rotary power shaft, and the rotary power shaft is movably sleeved with the installation lantern ring.

In some embodiments, the material extruding device includes a plurality of material extruding columns, a plurality of material extruding pipes and an installation block, the plurality of material extruding columns are disposed on a lower end surface of the installation block, the material extruding pipes are disposed at lower ends of the material extruding columns, and a discharge hole is formed at lower ends of the material extruding pipes.

In some embodiments, a telescopic control column is fixedly mounted on the sewage discharge tank of the stirring tank, a telescopic movable rod is detachably mounted at the top end of one side of the telescopic control column, a sealing cover is detachably mounted at the top end of one side of the telescopic movable rod, and a sealing block is fixedly mounted at the top end of one side of the sealing cover.

In some embodiments, the drying device is arranged on the end face of the machine table and is positioned below the extruder; the drying device comprises a second support column, a drying and collecting chamber, a feeding block and a feeding pipe, wherein the drying and collecting chamber is arranged on the machine table through the second support column, the feeding pipe is arranged below one side face of the drying and collecting chamber through the feeding block, and the collecting frame is positioned below the feeding pipe.

In some embodiments, the inner wall of the drying and collecting chamber is provided with a plurality of power mechanisms, each power mechanism comprises a western security rotating shaft, a plurality of installation shafts and two power blocks, the two power blocks are installed on the inner wall of the drying and collecting chamber, the rotating shaft is arranged between the two power blocks, the installation shafts are arranged on the rotating shaft, the top end of one side of the installation shafts is provided with an installation groove, and a material distribution mechanism is arranged in the installation groove.

In some embodiments, the material distribution mechanism comprises an installation rod and a rotating wheel, the installation rod is arranged in the installation groove, the rotating wheel is movably sleeved on the top end of one side of the installation rod, a material distribution storage disc is detachably arranged on the top end of one side of the rotating wheel, and a material separation groove is formed in the top end of one side of the material distribution storage disc.

In some embodiments, a drying mechanism is arranged on one side of the drying and collecting chamber; drying mechanism includes protecting frame, stoving hair-dryer, wind-force leaf, the side of stoving collection room is located to the stoving hair-dryer, the side end face of stoving collection room that the installation head protecting frame can be dismantled and locate and be located the outside of stoving hair-dryer, the drive end of stoving hair-dryer is located to the wind-force leaf.

The invention has the technical effects and advantages that:

1. according to the invention, the rotary power shaft is arranged, and the stirring blades are matched with the convection holes, so that convection motion in the stirring process of excess materials can be increased, so that the stirring is more uniform, the effect of improving the overall stirring speed of the equipment is improved, and the problems that the stirring speed of a common stirring device is low, the stirring is not thorough enough, the stirred materials are not uniform enough, and the reuse of the materials in the later period is influenced are solved;

2. the material extruding device is arranged, and the material extruding column is matched with the material extruding pipe, so that the effects that materials can be timely separated into fixed shapes, the subsequent collection and drying are facilitated, the dried materials are easier to store are achieved, and the problems that the subsequent processing is inconvenient and the subsequent storage and reuse are inconvenient due to the fact that the materials are all stacked together are solved;

3. according to the invention, the rotating wheel is arranged, and the material distribution storage disc is matched with the material separation groove, so that the extruded excess materials can be separately processed, the drying efficiency of the excess materials is improved, the effect of the drying comprehensiveness of the excess materials is improved, and the problem that the extruded materials are not fully stacked together, so that the materials cannot be sufficiently dried, and the later-stage storage and reuse of the materials are not facilitated is solved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the structure of the stirrer of the present invention.

FIG. 3 is a schematic view of the structure of the collector of the present invention.

Fig. 4 is a schematic view of the structure of the sewage discharging apparatus of the present invention.

Fig. 5 is a schematic view of the internal structure of the drying and collecting chamber of the present invention.

Fig. 6 is a schematic structural view of the material distributing device of the present invention.

Fig. 7 is a schematic structural diagram of the drying device of the present invention.

The reference signs are: 1. a machine platform; 2. a lifting device; 21. a first support column; 22. a lifting sliding column; 23. a lifting slider; 3. a stirring device; 31. a power box; 32. a power machine; 33. a lifting rod; 34. a stirring tank; 35. a residual material recovery pipe; 36. a stirrer; 361. a power connector; 362. a power box; 363. a clamping groove; 364. rotating the power shaft; 365. mounting a lantern ring; 366. stirring blades; 367. a convection hole; 37. a sewage discharge tank; 371. a telescopic control column; 372. a telescopic movable rod; 373. a sealing cover; 374. a sealing block; 38. a material extruding device; 381. extruding a material column; 382. extruding a material pipe; 393. a discharge port; 394. mounting blocks; 4. a drying device; 41. a second support column; 42. a drying and collecting chamber; 43. a feeding block; 44. a feed pipe; 45. a drying mechanism; 451. a protective frame; 452. drying the blower; 453. a wind blade; 46. a power mechanism; 461. a power block; 462. a rotating shaft; 463. installing a shaft; 464. mounting grooves; 47. a material distributing mechanism; 471. mounting a rod; 472. a rotating wheel; 473. a material distribution storage disc; 474. a material separation tank; 5. and (5) collecting the frame.

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.

The excess material recovery equipment for producing antistatic PE film master batches shown in attached figures 1-7 comprises a machine table 1 and other devices arranged on the machine table 1 below,

the two lifting devices 2 are symmetrically arranged on the end surface of the machine table 1; with reference to fig. 1, the lifting device 2 includes a first supporting column 21, a lifting sliding column 22 and a lifting sliding block 23, the lifting sliding column 22 is disposed on the end surface of the machine platform 1 through the first supporting column 21, and the lifting sliding block 23 is disposed at the driving end of the lifting sliding column 22;

the stirring device 3 is arranged between the lifting sliding blocks 23 of the two lifting devices 2; referring to fig. 1, the stirring device 3 includes a power box 31, a power machine 32, a lifting rod 33, a stirring tank 34, a remainder recycling pipe 35 and a stirrer 36, the lifting rod 33 is fixed between the two lifting sliding blocks 23, the power box 31 is disposed at one end of the lifting rod 33, the power machine 32 is disposed in the power box 31, the power machine 32 is in driving connection, the remainder recycling pipe 35 is disposed at one side of the top of the stirring tank 34, the stirring tank 34 is disposed at the middle position of the lifting rod 33, and the stirrer 36 is disposed in the stirring tank 34 and is in driving connection with the power machine 32; a sewage discharge groove 37 is formed in the bottom end of one side of the stirring tank 34, and an extruder 38 is detachably mounted at the bottom end of one side of the stirring tank 34;

a collecting frame 5 arranged below the stirring device 3; with reference to fig. 1, a collection frame 5 is used to collect the material.

With reference to fig. 2, the stirrer 36 includes a power connector 361, a power box 362 is detachably mounted on a top end of one side of the power connector 361, a clamping groove 363 is formed on a bottom end of one side of the power connector 361, a rotating power shaft 364 is detachably mounted on a bottom end of one side of the power connector 361, a mounting collar 365 is detachably mounted on one side of the rotating power shaft 364, a stirring blade 366 is detachably mounted on a top end of one side of the mounting collar 365, and a convection hole 367 is formed in a surface of the stirring blade 366.

With reference to fig. 2, the number of the mounting collar 365 is three, the number of the stirring blades 366 is several, the number of the convection holes 367 is several, the three mounting collars 365 and the stirring blades 366 are made of aluminum alloy material, the diameter of the convection holes 367 is one to two centimeters, the cross-sectional area of the mounting collar 365 is larger than that of the rotating power shaft 364, and the rotating power shaft 364 is movably sleeved with the mounting collar 365.

Referring to fig. 3, the extruder 38 includes a plurality of extruding columns 381, a plurality of extruding pipes 382 and a mounting block 394, the plurality of extruding columns 381 are disposed on a lower end surface of the mounting block 394, the extruding pipes 382 are disposed at a lower end of the extruding columns 381, and a discharging hole 393 is disposed at a lower end of the extruding pipes 382. The diameter of discharge gate 393 is eight to ten centimeters.

Referring to fig. 4, a telescopic control column 371 is fixedly mounted on the sewage discharge tank 37 of the agitator tank 34, a telescopic movable rod 372 is detachably mounted on the top end of one side of the telescopic control column 371, a sealing cover 373 is detachably mounted on the top end of one side of the telescopic movable rod 372, and a sealing block 374 is fixedly mounted on the top end of one side of the sealing cover 373.

With reference to fig. 1, the drying apparatus 4 is further included, and the drying apparatus 4 is disposed on the end surface of the machine 1 and located below the material extruder 38; the drying device 4 comprises a second support column 41, a drying and collecting chamber 42, a feeding block 43 and a feeding pipe 44, the drying and collecting chamber 42 is arranged on the machine table 1 through the second support column 41, the feeding pipe 44 is arranged below one side surface of the drying and collecting chamber 42 through the feeding block 43, and the collecting frame 5 is arranged below the feeding pipe 44.

Referring to fig. 5, the inner wall of the drying and collecting chamber 42 is provided with a plurality of power mechanisms 32, each power mechanism 32 includes a west-ampere rotating shaft, a plurality of mounting shafts 463 and two power blocks 461, the two power blocks 461 are mounted on the inner wall of the drying and collecting chamber 42, the rotating shaft 462 is disposed between the two power blocks 461, the mounting shafts 463 are disposed on the rotating shaft 462, a mounting groove 464 is disposed at a top end of one side of the mounting shafts 463, and a material separating mechanism 47 is disposed in the mounting groove 464.

With reference to fig. 6, the material distribution mechanism 47 includes an installation rod 471 and a rotation wheel 472, the installation rod 471 is disposed in the installation groove 464, the rotation wheel 472 is movably sleeved on a top end of one side of the installation rod 471, a material distribution storage disc 473 is detachably installed on a top end of one side of the rotation wheel 472, and a material separation groove 474 is disposed on a top end of one side of the material distribution storage disc 473.

With reference to fig. 7, a drying mechanism 45 is disposed on one side of the drying and collecting chamber 42; the drying mechanism 45 comprises a protective frame 451, a drying blower 452 and a wind power blade 453, the drying blower 452 is arranged at the side end of the drying and collecting chamber 42, the mounting head protective frame 451 is detachably arranged on the side end face of the drying and collecting chamber 42 and is positioned at the outer side of the drying blower 452, and the wind power blade 453 is arranged at the driving end of the drying blower 452. The number of the drying blowers 452 is four.

The implementation mode is specifically as follows: through the arrangement of the rotary power shaft 364, the stirring blades 366 are matched with the convection holes 367, so that convection movement in the excess material stirring process can be increased, the stirring is more uniform, the overall stirring speed of the equipment is improved, and the practicability of the excess material recovery equipment for producing the antistatic PE film master batches is improved;

by arranging the material extruding device 38, the material extruding column 381 is matched with the material extruding pipe 382, so that the materials can be timely separated into fixed shapes, the subsequent collection and drying are facilitated, and the dried materials are easier to store, so that the practicability of the excess material recovery equipment for producing the antistatic PE film master batches is improved;

through having set up swiveling wheel 472, dividing material memory disc 473 and material separation groove 474 cooperate, played and to have separately handled the clout of extruding, improved the drying efficiency of clout, improved the effect that the clout was dried to the face is done all around simultaneously to improve this clout recovery plant is used in antistatic PE membrane master batch production's practicality.

Referring to the drawings in the specification specifically, the stirrer 36 includes a power connector 361, a power box 362 is detachably mounted on the top end of one side of the power connector 361, a clamping groove 363 is formed in the bottom end of one side of the power connector 361, a rotating power shaft 364 is detachably mounted on the bottom end of one side of the power connector 361, a mounting collar 365 is detachably mounted on one side of the rotating power shaft 364, a stirring blade 366 is detachably mounted on the top end of one side of the mounting collar 365, and an convection hole 367 is formed in the surface of the stirring blade 366.

The implementation mode is specifically as follows: through setting up rotatory power axle 364, stirring leaf 366 and convection current hole 367 cooperate, have played and can increase the convection current motion of clout stirring in-process to the stirring that makes is more even, the effect of the whole stirring rate of improvement equipment.

Specifically referring to the attached drawings of the specification, the bottom end of one side of the material extruding device 38 is detachably provided with a material extruding column 381, the bottom end of one side of the material extruding column 381 is communicated with a material extruding pipe 382, the top end of one side of the material extruding pipe 382 is provided with a plurality of material discharging holes 393, and the diameter of each material discharging hole 393 is eight to ten centimeters.

The implementation mode is specifically as follows: by arranging the material extruding device 38, the material extruding column 381 is matched with the material extruding pipe 382, so that the materials can be separated into fixed shapes in time, the subsequent collection and drying are facilitated, and the dried materials are stored more easily.

Specifically referring to the drawings of the specification, an installation rod 471 is detachably installed inside the installation groove 464, a rotating wheel 472 is movably sleeved at the top end of one side of the installation rod 471, a material distribution storage disc 473 is detachably installed at the top end of one side of the rotating wheel 472, and a material separation groove 474 is formed in the top end of one side of the material distribution storage disc 473.

The implementation mode is specifically as follows: through having set up swiveling wheel 472, dividing material memory disc 473 and material separation groove 474 cooperate, played and to have separately handled the clout of extruding, improved the drying efficiency of clout, improved the comprehensive effect of clout stoving simultaneously.

The working principle is as follows:

s1: the operator first assembles the various components of the apparatus normally and then starts the apparatus normally.

S2: firstly, the height of the stirring tank 34 is adjusted to be the lowest by utilizing the lifting sliding block 23, excess materials in the production process are added through the excess material recycling pipe 35, a proper amount of clear water is added, the power machine 32 is started to drive the stirrer 36 to fully stir the excess materials, the convection hole 367 formed in the surface of the stirring blade 366 can increase the convection of the excess materials, so that the working efficiency of the stirring device 3 is improved, meanwhile, the comprehensiveness and uniformity of stirring are improved, after the stirring is finished, the sealing cover 373 is opened by utilizing the telescopic movable rod 372, unnecessary sewage is discharged, and the extruder 38 is opened to carry out shaping and extruding operation on the excess materials in the stirring tank 34;

through the extrusion of the extrusion pipe 382, the materials come into the drying and collecting chamber 42 and fall onto the material separation groove 474 on the surface of the material distribution storage disc 473, the installation rod 471 drives the rotating wheel 472 to rotate slowly, at the moment, the drying blower 452 is started to dry the excess materials by wind power, and the material separation groove 474 can effectively disperse and shape the well-shaped materials, so that the materials are prevented from being stacked together, and the drying efficiency of the materials is influenced;

the dried materials are conveyed through the feeding pipe 44 and finally collected inside the collecting frame 5, and workers can arrange the materials in the collecting frame 5 in order in time, so that the materials are convenient to store and use again later.

S3: firstly, an operator normally closes the equipment, then the operator checks whether the fixity among all components of the equipment is normal or not, and then parts with serious aging and abrasion in the equipment are replaced and maintained.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an excess material recovery plant is used in production of antistatic PE membrane master batch, includes board (1) and following other devices of locating on board (1), characterized in that:

the two lifting devices (2) are symmetrically arranged on the end surface of the machine table (1); the lifting device (2) comprises a first supporting column (21), a lifting sliding column (22) and a lifting sliding block (23), the lifting sliding column (22) is arranged on the end face of the machine table (1) through the first supporting column (21), and the lifting sliding block (23) is arranged at the driving end of the lifting sliding column (22);

the stirring device (3) is arranged between the lifting sliding blocks (23) of the two lifting devices (2); the stirring device (3) comprises a power box (31), a power machine (32), a lifting rod (33), a stirring tank (34), a surplus material recovery pipe (35) and a stirrer (36), wherein the lifting rod (33) is fixed between the two lifting sliding blocks (23), the power box (31) is arranged at one end of the lifting rod (33), the power machine (32) is arranged in the power box (31), the power machine (32) is in driving connection, the surplus material recovery pipe (35) is arranged at one side of the top of the stirring tank (34), the stirring tank (34) is arranged at the middle position of the lifting rod (33), and the stirrer (36) is arranged in the stirring tank (34) and is in driving connection with the power machine (32); a sewage discharge groove (37) is formed in the bottom end of one side of the stirring tank (34), and a material extruding device (38) is detachably mounted at the bottom end of one side of the stirring tank (34);

and the collecting frame (5) is arranged below the stirring device (3) and is used for collecting materials.

2. The excess material recovery equipment is used in antistatic PE membrane master batch production according to claim 1, characterized in that: the stirrer (36) comprises a power connector (361), a power box (362) is detachably mounted at the top end of one side of the power connector (361), a clamping groove (363) is formed in the bottom end of one side of the power connector (361), a rotating power shaft (364) is detachably mounted at the bottom end of one side of the power connector (361), a mounting sleeve ring (365) is detachably mounted at one side of the rotating power shaft (364), a stirring blade (366) is detachably mounted at the top end of one side of the mounting sleeve ring (365), and a convection hole (367) is formed in the surface of the stirring blade (366).

3. The excess material recovery equipment is used in antistatic PE membrane master batch production according to claim 2, characterized in that: the number of the mounting lantern rings (365) is three, the number of the stirring blades (366) is several, the number of the convection holes (367) is several, the number of the mounting lantern rings (365) and the number of the stirring blades (366) is three, the materials of the mounting lantern rings (365) and the number of the stirring blades (366) are all aluminum alloy materials, the diameter of the convection holes (367) is one to two centimeters, the cross sectional area of the mounting lantern rings (365) is larger than that of the rotating power shaft (364), and the rotating power shaft (364) is movably sleeved with the mounting lantern rings (365).

4. The excess material recovery equipment is used in antistatic PE membrane master batch production according to claim 1, characterized in that: the material extruding device (38) comprises a plurality of material extruding columns (381), a plurality of material extruding pipes (382) and an installation block (394), the material extruding columns (381) are arranged on the lower end face of the installation block (394), the material extruding pipes (382) are arranged at the lower ends of the material extruding columns (381), and a discharge hole (393) is formed in the lower ends of the material extruding pipes (382).

5. The excess material recovery equipment is used in antistatic PE membrane master batch production according to claim 1, characterized in that: fixed mounting has flexible control post (371) on sewage discharge tank (37) of agitator tank (34), the top demountable installation of flexible control post (371) one side has flexible movable rod (372), the top demountable installation of flexible movable rod (372) one side has sealed lid (373), the top fixed mounting of sealed lid (373) one side has sealed piece (374).

6. The excess material recovery equipment for producing antistatic PE film master batches according to any one of claims 1 to 5, characterized in that: the drying device (4) is arranged on the end face of the machine table (1) and is positioned below the material extruding device (38); the drying device (4) comprises a second support column (41), a drying and collecting chamber (42), a feeding block (43) and a feeding pipe (44), the drying and collecting chamber (42) is arranged on the machine table (1) through the second support column (41), the feeding pipe (44) is arranged below one side face of the drying and collecting chamber (42) through the feeding block (43), and the collecting frame (5) is located below the feeding pipe (44).

7. The excess material recovery equipment is used in antistatic PE membrane master batch production according to claim 6, characterized in that: the inner wall of the drying and collecting chamber (42) is provided with a plurality of power machines (32), each power machine (32) comprises a Western-style safety rotating shaft, a plurality of installation shafts (463) and two power blocks (461), the two power blocks (461) are installed on the inner wall of the drying and collecting chamber (42), the rotating shaft (462) is arranged between the two power blocks (461), the installation shafts (463) are arranged on the rotating shaft (462), the top end of one side of each installation shaft (463) is provided with a mounting groove (464), and a material distributing mechanism (47) is arranged in each mounting groove (464).

8. The excess material recovery equipment is used in antistatic PE membrane master batch production according to claim 7, characterized in that: feed mechanism (47) is including installation pole (471), swiveling wheel (472), installation pole (471) are located in mounting groove (464), swiveling wheel (472) movably cover is located the top of installation pole (471) one side, the top demountable installation of swiveling wheel (472) one side has branch material memory disc (473), material separation groove (474) has been seted up on the top of branch material memory disc (473) one side.

9. The excess material recovery equipment is used in antistatic PE membrane master batch production according to claim 8, characterized in that: a drying mechanism (45) is arranged on one side of the drying and collecting chamber (42); the drying mechanism (45) comprises a protective frame (451), a drying blower (452) and a wind power blade (453), the drying blower (452) is arranged at the side end of the drying and collecting chamber (42), the mounting head protective frame (451) is detachably arranged on the side end face of the drying and collecting chamber (42) and is located on the outer side of the drying blower (452), and the wind power blade (453) is arranged at the driving end of the drying blower (452).