CN114592407A - High-yield material conveying device for mixing polymer mixture - Google Patents

Abstract

The invention provides a high-yield material conveying device for mixing polymer mixture, which comprises an annular runway structure, a plurality of mixing main bodies and a supporting plate, wherein the annular runway structure is horizontally arranged, the mixing main bodies are arranged on the annular runway structure, the supporting plate is arranged above the annular runway, a moving vehicle is arranged on the annular runway structure, two adjacent mixing main bodies are connected through a pull rope, and one of the two stirring main bodies is connected with the moving vehicle through stretching; one end of the supporting plate is provided with a butt-joint plate, the butt-joint plate is detachably connected with the paver, and a wheel assembly is arranged at the position close to the other end of the supporting plate. The high-yield material conveying device for mixing the polymer mixture increases the mixing efficiency, improves the mixing capacity, ensures the continuous production of the mixture through the arrangement of the annular runway structure, greatly improves the capacity and the mixing sufficiency, and has more uniform mixing process.

Description

High-yield material conveying device for mixing polymer mixture

Technical Field

The invention belongs to the technical field of transportation, and particularly relates to a high-yield material transportation device for mixing polymer mixture.

Background

The high-molecular polymer such as polyurethane, epoxy resin, acrylic resin and the like is adopted to replace asphalt to be used as a pavement cementing material, so that the energy conservation and environmental protection of the whole construction process of production, transportation and compaction of a mixture can be realized, and the pavement material has excellent high-low temperature stability, fatigue resistance and dynamic mechanical property, can prolong the service life of a pavement and greatly reduce the maintenance frequency and cost. However, the polymer compound has the following problems in the curing process:

(1) the asphalt mixture is stirred and mixed by using asphalt and stones, and is conveyed by using a truck for road paving construction after stirring is finished, but the asphalt can dissipate heat to cause heat loss when the asphalt mixture is stirred and mixed, so that the temperature can not meet the temperature requirement of paving construction when the asphalt mixture is discharged, and the quality of paved roads is influenced, for example, the Chinese utility model patent with the application number of CN202020539508X discloses a stirring station for the asphalt mixture, which can solve the problem, but has low production efficiency;

(2) present pitch mixes station and mixes inefficiency, need put into the material and stir longer time in the batch tank and just can accomplish and mix, and the quality of mixing is not high, still there is the not abundant problem of stirring inadequately, chinese utility model patent that application number is CN2019213236152, an environment-friendly pitch mixes station is disclosed, though this pitch mixes station can be to the efficiency of mixing of strengthening pitch to a certain extent, make pitch comparatively high-efficient and can fully mix, but when polymer mixture complete set site operation, still can't realize high productivity, efficient effect of paving.

Therefore, the present invention is directed to a method for manufacturing a high-throughput material transporting apparatus for mixing polymer blend, so as to solve the above-mentioned problems.

Disclosure of Invention

The invention aims to provide a high-yield material conveying device for mixing polymer mixture, which solves the technical problems of increasing the mixing efficiency and improving the mixing capacity, ensures the uninterrupted production of the mixture by arranging the annular runway structure and integrally arranging the annular runway structure and a feeding system, greatly improves the capacity and the mixing sufficiency, ensures the more uniform mixing process, and ensures the high-efficiency and high-quality instant production and instant laying of the polymer mixture.

A high-yield material conveying device for mixing polymer mixture comprises an annular runway structure, a plurality of mixing main bodies and a supporting plate, wherein the annular runway structure is horizontally arranged, the mixing main bodies are arranged on the annular runway structure, the supporting plate is arranged above the annular runway structure, a moving vehicle is arranged on the annular runway structure, two adjacent mixing main bodies are connected through pull ropes, and one pull rope is connected with the moving vehicle;

one end of the supporting plate is provided with a butt-joint plate, the butt-joint plate is detachably connected with the paver, and a wheel assembly is arranged at the position close to the other end of the supporting plate.

The annular runway structure comprises an outer runway component and an inner runway component, the outer runway component comprises a lower outer runway and an upper outer runway which are arranged in parallel, the outer side surfaces of the lower outer runway and the upper outer runway are connected through a plurality of outer stand columns, the inner runway component comprises a lower inner runway and an upper inner runway which are arranged in parallel, and the inner side surfaces of the lower inner runway and the upper inner runway are connected through a plurality of inner stand columns;

the moving vehicle and the plurality of mixing main bodies are arranged in the area between the outer runway component and the inner runway component, and the moving vehicle is erected on the lower outer runway and the lower inner runway through power wheels;

the outer columns and the inner columns extend upwards to form extension parts, and the support plates are horizontally arranged on the extension parts.

A feeding system is arranged on the supporting plate and is in separable contact with the mixing main body;

the feeding system comprises a plurality of material boxes arranged on the supporting plate, a soft material pipe with one end connected with the material boxes, a buffer box connected with the other end of the soft material pipe, and a hard material pipe with one end connected with the buffer box, wherein the plurality of buffer boxes are arranged on a lifting plate, the lifting plate is connected with a lifting mechanism, and the lifting mechanism is arranged on the supporting plate; the hard material pipe penetrates through the lifting plate.

The lifting mechanism comprises a plurality of fixed columns, a connecting plate and a lifting cylinder, wherein one end of each fixed column is connected with the lifting plate, the other end of each connecting plate is connected with the other end of the corresponding fixed column, the lifting cylinder is connected with the upper end face of the connecting plate, the lifting cylinder is arranged on a positioning frame, and the positioning frame is arranged on the supporting plate.

The mixing main body comprises a mixing barrel, a plurality of feeding barrels arranged on the outer side of the mixing barrel, a blanking mechanism arranged at the bottom end of the mixing barrel and a stirring mechanism arranged in the mixing barrel, two ends of the pull rope are respectively connected with the outer sides of two adjacent mixing barrels, and the other end of the hard material pipe is in separable contact with the inlet position of the feeding barrel;

the upper end and the lower end of the outer side of the mixing barrel are respectively and horizontally provided with a lower positioning ring and an upper positioning ring which are parallel to each other, the lower positioning rings are erected on the lower outer runway and the lower inner runway, and the upper positioning rings are erected on the upper outer runway and the upper inner runway;

and a blanking hole is formed in the bottom end of the mixing barrel and is movably connected with the blanking mechanism.

Rabbling mechanism is including the driving shaft and the driven shaft that are parallel to each other and vertical setting, driving shaft from the top down has set gradually the driving gear, goes up flight and puddler one, driven shaft from the top down has set gradually driven gear, puddler two and lower flight, the driving gear with driven gear meshes the connection, the driving gear pass through the rotary rod with driven gear connects, driven gear is connected with the internal gear, the top of driving shaft is passed through the bearing and is connected with the support frame, be provided with on the support frame with the agitator motor that the driving shaft is connected.

The blanking mechanism comprises a toothed bar, a blanking gear, a blanking motor and a blanking hole, wherein one end of the toothed bar is provided with meshing teeth, the blanking gear is connected with the meshing teeth, the blanking shaft penetrates through the blanking gear, and the blanking motor is connected with the blanking shaft through a transmission belt.

And a storage battery is arranged on the upper end face of the moving vehicle.

Be provided with a plurality of foil gage sensors on the lifter plate, the baffle-box sets up on the foil gage sensor, it is a plurality of foil gage sensor is connected with the host computer, the host computer is connected with surveillance center.

Compared with the prior art, the invention has the beneficial effects that:

(1) the scheme is provided with the annular runway structure, the annular runway structure is provided with a plurality of stirring main bodies, the stirring main bodies can be driven to move by the moving vehicle, when one stirring main body realizes the blanking process, the other stirring main bodies carry out the stirring process, when the blanking process of one stirring main body is finished, the stirring process of the adjacent stirring main bodies is also finished, the stirring efficiency is greatly improved, the capacity requirement of a paver set can be met, the problem of shutdown of a paver is avoided, construction joints are reduced, and the construction quality of a mixture is ensured;

on one hand, the productivity is improved, the seamless connection in the paving process is realized, and the problem of shutdown of the paver is avoided; on the other hand, when one of the mixing main bodies drops, the mixing process of the other mixing main bodies is carried out all the time, so that the mixing sufficiency is greatly improved, and the mixing process is more uniform;

(2) in the scheme, the support plate is provided with the feeding system, so that the integrated functions of feeding, stirring and discharging are realized, the three processes can be simultaneously and continuously carried out, the mixed materials are continuously prepared, the trouble that butt joint needs to be realized among the polymer storage and supply devices, and among the mineral aggregate supply and supply devices, the conveying device and the mixing device in the previous process is reduced and even avoided, and the construction requirement of mixing large batches of polymers can be met;

(3) finally, different polymer mixtures are arranged in different buffer boxes in the scheme, strain gauge sensors are arranged at the bottom ends of the buffer boxes, when materials in the material boxes enter the buffer boxes, the strain gauge sensors can sense the weight increment of the buffer boxes, and the weight of the mixed materials entering a mixing barrel can be judged under the operation of an upper computer, so that the functions of online monitoring of mixed material production data, real-time detection of discharge data and analysis and early warning of production data are realized, the production process of the mixed materials is simplified, the mixing quality is effectively guaranteed, and the scheme has a multifunctional technical effect;

(4) the rabbling mechanism that sets up in this scheme, the driving shaft is rotatory, drives driven shaft revolution and autobiography, has realized more abundant stirring in the blending tank, and the upper end of driving shaft sets up the flight, and the lower extreme of driven shaft is provided with down the flight, and under the effect of last flight, the mixture descends, under the effect of flight down, and the mixture rises, so relapse, has strengthened mixed effect greatly, has realized fully blending of polymer mixture.

Drawings

FIG. 1 is a perspective view of a mixing apparatus in an example of the present invention.

FIG. 2 is a structural view of a mixing apparatus in an embodiment of the present invention.

FIG. 3 is a plan view of a mixing apparatus in an example of the present invention.

FIG. 4 is a first structural view of a mixing body in the embodiment of the present invention.

FIG. 5 is a structural diagram II of the mixing body in the example of the present invention.

FIG. 6 is a structural view of the stirring mechanism in the embodiment of the present invention.

Fig. 7 is a block diagram of an annular runway structure in an embodiment of the invention.

Wherein the reference numerals are: 1. an outer runway is set; 2. getting on an outer runway; 3. an outer column; 4. mixing the main body; 411. a mixing barrel; 412. a lower positioning ring; 413. an upper positioning ring; 414. a feeding cylinder; 415. an internal gear; 416. a stirring motor; 417. a support frame; 418. a rack bar; 419. a blanking gear; 420. a blanking motor; 421. a driving gear; 422. an upper spiral sheet; 423. a drive shaft; 424. a first stirring rod; 425. a lower spiral sheet; 426. a driven shaft; 427. a second stirring rod; 428. a driven gear; 429. rotating the rod; 5. a bolt; 6. a butt plate; 7. a support plate; 9. a positioning frame; 10. a material box; 11. a soft material pipe; 111. a hard material pipe; 12. a lifting cylinder; 13. a connecting plate; 131. fixing a column; 14. a lifting plate; 15. a buffer tank; 16. a wheel; 17. getting on the inner runway; 171. an inner upright post; 172. a lower inner runway; 18. a mobile vehicle; 19. a battery; 20. pulling a rope; 21. an annular track structure; 22. a feed system; 23. a stirring mechanism; 24. a blanking mechanism; 25. an outer track assembly; 26. an inner track assembly; 27. a lifting mechanism.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is described below by way of specific embodiments.

Referring to fig. 1, 2 and 3, a high-throughput material transporting apparatus for mixing polymer mixture includes a horizontally disposed endless track structure 21, a plurality of mixing bodies 4 disposed on the endless track structure 21, a support plate 7 disposed above the endless track structure 21, and a feeding system 22 disposed on the support plate 7, wherein the feeding system 22 is detachably contacted with the mixing bodies 4, a moving vehicle 18 is disposed on the endless track structure 21, and two adjacent mixing bodies 4 are connected by a pull rope 20, wherein one pull rope is connected to the moving vehicle 18;

one end of the supporting plate 7 is provided with a butt-joint plate 6, the butt-joint plate 6 is detachably connected with the paver, and a wheel assembly is arranged at the position close to the other end of the supporting plate 7.

The wheel assembly comprises a plurality of wheels 16, and is arranged at one end of the supporting plate 7 far away from the paver, and the concrete structure of the paver is not described in detail herein.

Referring to fig. 7, the annular runway structure 21 includes an outer runway assembly 25 and an inner runway assembly 26, the outer runway assembly 25 includes a lower outer runway 1 and an upper outer runway 2 which are arranged in parallel to each other, outer sides of the lower outer runway 1 and the upper outer runway 2 are connected by a plurality of outer pillars 3, the inner runway assembly 26 includes a lower inner runway 172 and an upper inner runway 17 which are arranged in parallel to each other, inner sides of the lower inner runway 172 and the upper inner runway 17 are connected by a plurality of inner pillars 171;

a moving body 18 and a plurality of mixing bodies 4 are arranged in the area between the outer runway component 25 and the inner runway component 26, and the moving body 18 is erected on the lower outer runway 1 and the lower inner runway 172 through power wheels;

wherein the plurality of outer posts 3 and the plurality of inner posts 171 extend upward and form an extension portion on which the support plate 7 is horizontally disposed.

The power wheel is a technology which is easy to realize by a person skilled in the art, and the installation mode and the specific structure are not detailed here.

The arrangement of the outer uprights 3 and the inner uprights 171 not only allows the connection of the lower outer runway 1 with the upper outer runway 2 and of the lower inner runway 172 with the upper inner runway 17, but also connects the inner and outer runway structure sections by means of the support plates 7, while the bottom ends of part of the outer uprights 3 are provided with wheels 16 facilitating the movement of the mixing device.

A feeding system 22 is arranged on the supporting plate 7, and the feeding system 22 is in separable contact with the mixing main body 4;

the feeding system 22 comprises a plurality of material boxes 10 arranged on the supporting plate 7, a soft material pipe 11 with one end connected with the material boxes 10, a buffer box 15 connected with the other end of the soft material pipe 11, and a hard material pipe 111 with one end connected with the buffer box 15, wherein the plurality of buffer boxes 15 are arranged on a lifting plate 14, the lifting plate 14 is connected with a lifting mechanism 27, and the lifting mechanism 27 is arranged on the supporting plate 7; the hard material pipe 111 passes through the elevating plate 14.

The number of the bins is not limited in the scheme, the structure and the number of the bins in the attached drawings are only used for illustration, and the bins can be determined according to specific conditions in actual production; in the present embodiment, the soft material pipe 11 and the hard material pipe 111 are provided, so that under the action of the lifting mechanism 27, the hard material pipe 111 can move up and down more conveniently, and the adjustment effect of the soft material pipe 11 is also facilitated. The materials in the material box 10 can be prepared in advance, and the material box 10 can be fed by an external feeding device when the material box 10 works, so that the stirring and mixing process and the blanking process of the materials can be continuously carried out without interruption.

The feeding system 22 in the present embodiment is not limited to the above-mentioned structure, and other structures, such as a conveyor mechanism, a free falling material by gravity, etc., may also be adopted to implement the falling process, which is easy for those skilled in the art to implement, and will not be described in detail herein.

The emphasis in this embodiment is on the integration of the feed system 22 with the mixing apparatus so that the feed is timely to increase the mixing efficiency.

The lifting mechanism 27 comprises a plurality of fixing columns 131, a connecting plate 13 and a lifting cylinder 12, wherein one ends of the fixing columns 131 are connected with the lifting plate 14, the connecting plate 13 is connected with the other ends of the fixing columns 131, the lifting cylinder 12 is connected with the upper end face of the connecting plate 13, the lifting cylinder 12 is arranged on a positioning frame 9, and the positioning frame 9 is arranged on the supporting plate 7.

Referring to fig. 4 and 5, the mixing body 4 includes a mixing barrel 411, a plurality of feeding barrels 414 disposed outside the mixing barrel 411, a blanking mechanism 24 disposed at a bottom end of the mixing barrel 411, and a stirring mechanism 23 disposed inside the mixing barrel 411, two ends of the pulling rope 20 are respectively connected to outer sides of two adjacent mixing barrels 411, and the other end of the hard material pipe 111 is detachably contacted with an inlet position of the feeding barrel 414;

the upper end and the lower end of the outer side of the mixing barrel 411 are respectively and horizontally provided with a lower positioning ring 412 and an upper positioning ring 413 which are parallel to each other, the lower positioning ring 412 is erected on the lower outer runway 1 and the lower inner runway 172, and the upper positioning ring 413 is erected on the upper outer runway 2 and the upper inner runway 17;

the bottom end of the mixing barrel 411 is provided with a blanking hole which is movably connected with the blanking mechanism 24.

Referring to fig. 6, the stirring mechanism 23 includes a driving shaft 423 and a driven shaft 426 which are parallel to each other and are vertically arranged, the driving shaft 423 is sequentially provided with a driving gear 421, an upper spiral piece 422 and a first stirring rod 424 from top to bottom, the driven shaft 426 is sequentially provided with a driven gear 428, a second stirring rod 427 and a lower spiral piece 425 from top to bottom, the driving gear 421 is engaged with the driven gear 428, the driving gear 421 is connected with the driven gear 428 through a rotating rod 429, the driven gear 428 is connected with an internal gear 415, the top end of the driving shaft 423 is connected with a support frame 417 through a bearing, and a stirring motor 416 connected with the driving shaft 423 is arranged on the support frame 417.

Wherein, the bottom end of the inner gear 415 is lapped on the shaft shoulder at the top end of the mixing barrel 411, and steel balls can be arranged on the shaft shoulder so as to reduce the friction force.

The moving vehicle 18 is provided with a storage battery 19, and the storage battery 19 is connected with a plurality of stirring motors 416 to provide stirring power.

In addition, a battery is provided above the traveling vehicle 18, and sufficient power supply is achieved.

The blanking mechanism 24 comprises a toothed bar 418 with engaging teeth at one end, a blanking gear 419 connected with the engaging teeth, a blanking shaft penetrating through the blanking gear 419, and a blanking motor 420 connected with the blanking shaft through a transmission belt, wherein the blanking motor 420 is arranged on the outer side surface of the mixing barrel 411, and the toothed bar 418 is horizontally arranged below the blanking hole.

The blanking motor 420 is started, so that the toothed bar 418 rotates by a certain angle, the blanking hole is opened, and the mixture gradually moves to the position of the blanking hole under the action of the driven shaft 426, thereby realizing the high-efficiency operation of the blanking process;

preferably, a rotating rod is provided below the lower spiral piece 425, i.e., at the bottom end of the driven shaft 426, and the rotating rod is closely attached to the inner bottom surface of the mixing tub 411, so that the mixture in the mixing tub 411 is more sufficiently and thoroughly discharged.

The upper end surface of the traveling vehicle 18 is provided with a battery 19.

A plurality of strain gauge sensors are arranged on the lifting plate 14, the buffer box 15 is arranged on the strain gauge sensors, the plurality of strain gauge sensors are connected with an upper computer, and the upper computer is connected with a monitoring center.

The specific working process of the invention is as follows:

according to the technical characteristics described above in the present embodiment, a mixing device is installed, a pump (not shown in the drawings) is arranged between the material box 10 and the flexible pipe 11, under the action of the pump, the purpose of conveying the mixture to the buffer box 15 is achieved, the mixture is weighed, weighing data is transmitted to an upper computer for adjustment, after the mixture in one mixing barrel 411 is full, the mixing motor 416 is started to mix the mixture, the mixing barrel 411 is moved out under the action of the moving vehicle 18, and then the feeding process of the mixture is repeated when the adjacent mixing barrel 411 is close to the lower part of the lifting mechanism 27;

until the mixing main body 4 moves to the other end of the annular runway structure 21, the blanking mechanism 24 is started, and then the mixture in the mixing barrel 411 is discharged, meanwhile, under the action of the moving vehicle 18 and the feeding system 22, the supply and transfer processes of the mixture are continuously carried out, and the continuous carrying out of the mixing process and the blanking process is ensured, so that the mixing barrels 411 are in annular motion and circularly reciprocate under the action of the moving vehicle, and the reciprocating transportation of the materials is realized by matching with the action of the feeding system 22, and the structural arrangement realizes the integration of feeding, transportation and discharging, which is also the most important innovation point in the scheme;

as for the stirring mechanism 23 in the stirring body 4, any stirring mechanism may be adopted, and the stirring can be achieved in principle, and the stirring mechanism 23 provided in the present embodiment further contributes to the sufficient stirring of the material.

Be provided with the butt joint board 6 in the one end of backup pad 7, the top of butt joint board 6 is provided with bolt 5, and butt joint board 6 passes through bolt 5 and the effective butt joint of bituminous mixture paver group, and butt joint mode simple accurate, convenient operation also can adopt other modes to dock in addition, as long as guarantee butt joint board 6 can with bituminous mixture paver group connection go up can, because this butt joint structure is not the innovation point of this scheme, consequently no longer detail.

The scheme can also be provided with a PLC control system, and is used for automatically adjusting the working process of each motor, each air cylinder and each pump so as to save labor.

The technical features of the present invention which are not described in the above embodiments may be implemented by or using the prior art, and are not described herein again, of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions or substitutions which may be made by those skilled in the art within the spirit and scope of the present invention should also fall within the protection scope of the present invention.

Claims (8)

1. The high-yield material conveying device for mixing the polymer mixture is characterized by comprising an annular runway structure (21) which is horizontally arranged, a plurality of mixing main bodies (4) which are arranged on the annular runway structure (21), and a supporting plate (7) which is arranged above the annular runway structure (21), wherein a moving vehicle (18) is arranged on the annular runway structure (21), two adjacent mixing main bodies (4) are connected through a pull rope (20), and one pull rope (20) is connected with the moving vehicle (18);

one end of the supporting plate (7) is provided with a butt plate (6), the butt plate (6) is detachably connected with the paver and is close to the other end of the supporting plate (7) in position and is provided with a wheel assembly.

2. A high capacity material transporting apparatus for polymer compound mixing according to claim 1, wherein the endless track structure (21) comprises an outer track assembly (25) and an inner track assembly (26), the outer track assembly (25) comprises a lower outer track (1) and an upper outer track (2) which are arranged in parallel with each other, outer sides of the lower outer track (1) and the upper outer track (2) are connected by a plurality of outer pillars (3), the inner track assembly (26) comprises a lower inner track (172) and an upper inner track (17) which are arranged in parallel with each other, inner sides of the lower inner track (172) and the upper inner track (17) are connected by a plurality of inner pillars (171);

the moving vehicle (18) and the mixing bodies (4) are arranged in the area between the outer runway component (25) and the inner runway component (26), and the moving vehicle (18) is arranged on the lower outer runway (1) and the lower inner runway (172) through power wheels;

wherein a plurality of the outer columns (3) and a plurality of the inner columns (171) extend upwards to form an extension part, and the support plate (7) is horizontally arranged on the extension part.

3. High-throughput material conveyor for polymer mix mixing according to claim 2, characterized in that said support plate (7) is provided with a feeding system (22), said feeding system (22) being in detachable contact with said mixing body (4);

feeding system (22) including set up a plurality of workbins (10), one end on backup pad (7) with soft material pipe (11) that workbin (10) are connected, with buffer box (15), one end that soft material pipe (11) other end is connected with hard material pipe (111) that buffer box (15) are connected, a plurality of buffer box (15) set up on lifter plate (14), lifter plate (14) are connected with elevating system (27), elevating system (27) set up on backup pad (7), hard material pipe (111) are passed lifter plate (14).

4. The high-yield material conveying device for mixing polymer mixture as claimed in claim 3, wherein the lifting mechanism (27) comprises a plurality of fixing columns (131) with one ends connected with the lifting plate (14), a connecting plate (13) connected with the other ends of the fixing columns (131), and a lifting cylinder (12) connected with the upper end face of the connecting plate (13), the lifting cylinder (12) is arranged on a positioning frame (9), and the positioning frame (9) is arranged on the supporting plate (7).

5. The high-throughput material transporting apparatus for mixing polymer mixture according to claim 4, wherein the mixing body (4) comprises a mixing barrel (411), a plurality of feeding barrels (414) disposed outside the mixing barrel (411), a blanking mechanism (24) disposed at a bottom end of the mixing barrel (411), and a stirring mechanism (23) disposed inside the mixing barrel (411), and the other end of the hard material pipe (111) is separably contacted with an inlet position of the feeding barrels (414);

the upper end and the lower end of the outer side of the mixing barrel (411) are respectively and horizontally provided with a lower positioning ring (412) and an upper positioning ring (413) which are parallel to each other, the lower positioning ring (412) is erected on the lower outer runway (1) and the lower inner runway (172), and the upper positioning ring (413) is erected on the upper outer runway (2) and the upper inner runway (17);

the bottom end of the mixing barrel (411) is provided with a blanking hole, and the blanking hole is movably connected with the blanking mechanism (24).

6. A high throughput material transfer apparatus for mixing polymer compounds as claimed in claim 5, it is characterized in that the stirring mechanism (23) comprises a driving shaft (423) and a driven shaft (426) which are parallel to each other and are vertically arranged, the driving shaft (423) is sequentially provided with a driving gear (421), an upper spiral piece (422) and a first stirring rod (424) from top to bottom, the driven shaft (426) is sequentially provided with a driven gear (428), a stirring rod II (427) and a lower spiral sheet (425) from top to bottom, the driving gear (421) is meshed with the driven gear (428), the driving gear (421) is connected with the driven gear (428) through a rotating rod (429), the driven gear (428) is connected with an internal gear (415), the top end of the driving shaft (423) is connected with a supporting frame (417) through a bearing, and the supporting frame (417) is provided with a stirring motor (416) connected with the driving shaft (423).

7. The high-throughput material transporting device for mixing polymer mixture according to claim 6, wherein the blanking mechanism (24) comprises a rack bar (418) having engaging teeth at one end, a blanking gear (419) connected to the engaging teeth, a blanking shaft passing through the blanking gear (419), and a blanking motor (420) connected to the blanking shaft through a transmission belt, the blanking motor (420) is disposed on the outer side surface of the mixing barrel (411), and the rack bar (418) is horizontally disposed below the blanking hole.

8. The high-throughput material transporting apparatus for mixing polymer mixture according to claim 7, wherein a plurality of strain gauge sensors are provided on the elevating plate (14), the buffer box (15) is provided on the strain gauge sensors, the plurality of strain gauge sensors are connected to an upper computer, and the upper computer is connected to a monitoring center.

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