CN215849535U - Automatic feeding and mixing device for geomembrane raw materials - Google Patents

Abstract

The application discloses an automatic feeding and mixing device for geomembrane raw materials, which is used for mixing the geomembrane raw materials and guiding the mixed materials into a screw extruder and comprises a feeding mechanism and a mixing mechanism; the feeding mechanism comprises a raw material hopper, a negative pressure machine and a feeding hopper, wherein the feeding hopper is respectively communicated with the raw material hopper and the negative pressure machine, and the negative pressure machine enables negative pressure to be formed in the feeding hopper so as to extract the geomembrane raw material in the raw material hopper; the mixing mechanism comprises a stirring hopper communicated with the feeding hopper, and further comprises a stirring piece and a driving piece, the stirring piece is fixedly arranged in the stirring hopper, the stirring hopper is connected with the driving piece to rotate, and the stirring hopper is connected with the screw extruder. According to the method, negative pressure is formed at the feeding position through the negative pressure machine, so that the geomembrane raw material is automatically extracted at the feeding position; set up the stirring structure intensive mixing geomembrane raw materials, avoid forming the layering under the action of gravity because material density is different between the different compositions in the raw materials, guarantee that the raw materials that get into screw extruder is the homogeneous mixing, improve the off-the-shelf quality of geomembrane.

Description

Automatic feeding and mixing device for geomembrane raw materials

Technical Field

The utility model relates to the technical field of geomembrane production, in particular to an automatic feeding and mixing device for a geomembrane raw material.

Background

The geomembrane is a waterproof barrier material taking a high molecular polymer as a basic raw material, and mainly comprises the following components: low Density Polyethylene (LDPE) geomembrane, High Density Polyethylene (HDPE) geomembrane and EVA geomembrane, geomembrane with a thickness greater than or equal to 0.8mm may also be referred to as a waterproof sheet. Geomembranes are widely used in scenes such as refuse landfills, tailing storage sites, canal seepage prevention, dam seepage prevention, subway engineering and the like.

When the geomembrane is produced, the raw materials are mixed by the feeding device and then are led out through the screw extruder, but the feeding amount of the existing feeding device needs to be manually controlled, and the raw materials are directly led into the screw extruder after being fed, however, different components in the raw materials of the geomembrane can form layering under the action of gravity due to different densities in the feeding process, and therefore the existing feeding device has the problems that the raw materials are easy to lack or overflow and the raw materials are not uniformly mixed, the produced geomembrane has poor quality, and serious production economic loss can be possibly caused. In addition, because the screw extruder must be installed at a high position due to the requirement of the processing technology, once the raw material supply is in a problem, technicians are required to repeatedly climb a ladder to check the feeding condition of the feeding device, a great deal of time and energy are consumed, and the production efficiency is affected.

Therefore, a feeding device which can automatically feed and mix materials, is uniform in material mixing and reliable in work is urgently needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems explained in the background art, the application aims to provide an automatic feeding and mixing device for geomembrane raw materials, wherein negative pressure is formed at a feeding position through a negative pressure machine, so that the geomembrane raw materials are automatically extracted at the feeding position, and the workload of operators is reduced; and, this application sets up the stirring structure and fully stirs the geomembrane raw materials before the geomembrane raw materials gets into screw extruder, avoids forming the layering under the action of gravity because material density is different between the different compositions in the raw materials, guarantees effectively that the raw materials that get into screw extruder is the homogeneous mixing, improves the off-the-shelf quality of geomembrane greatly.

In order to achieve the purpose, the technical scheme is as follows:

an automatic feeding and mixing device for geomembrane raw materials is used for mixing the geomembrane raw materials and guiding the mixed raw materials into a screw extruder and comprises a feeding mechanism and a mixing mechanism; the feeding mechanism comprises a raw material hopper, a negative pressure machine and a feeding hopper, wherein the feeding hopper is respectively communicated with the raw material hopper and the negative pressure machine, and the negative pressure machine enables negative pressure to be formed in the feeding hopper so as to extract the geomembrane raw material in the raw material hopper; the mixing mechanism comprises a stirring hopper communicated with the feeding hopper, a stirring piece and a driving piece, wherein the stirring piece is fixedly arranged in the stirring hopper, the stirring hopper is connected with the driving piece to rotate, and the stirring hopper is connected with the screw extruder.

The upper hopper and the lower hopper are respectively connected with a raw material hopper and a negative pressure machine, the negative pressure machine is connected with the upper end of the upper hopper, the raw material hopper is connected with the side part of the upper hopper through a conveying pipeline, the negative pressure machine extracts air in the upper hopper to enable negative pressure to be formed in the upper hopper, and in order to balance pressure intensity, the upper hopper can automatically extract a geomembrane raw material in the raw material hopper through the conveying pipeline, so that automatic feeding is realized, the structure is simple, the work is reliable, and the workload of operators is reduced; go up the hopper lower part and still be connected with the stirring fill through conveying pipeline, after the geomembrane raw materials in the feeding hopper reachd a certain amount, the feeding hopper can discharge the geomembrane raw materials in to the stirring fill, be equipped with the stirring piece of fixed setting in the stirring fill, the stirring fill links to each other with the driving piece, under the drive of driving piece, the stirring fill can rotate, and the stirring piece of fixed setting does not rotate, consequently, the stirring fill can take place relative rotation with the stirring piece, can stir the geomembrane raw materials of being discharged to in the stirring fill from this, guarantee effectively that the raw materials that get into screw extruder are homogeneous mixing, improve the off-the-shelf quality of geomembrane greatly, and simple structure, it is with low costs.

Furthermore, the driving part comprises a rotary disc and a driving motor for driving the rotary disc to rotate, the rotary disc is connected with the stirring hopper, and the rotary disc drives the stirring hopper to rotate under the driving of the driving motor.

Further, the mixing device further comprises a first mixing detector and a first mixing controller, wherein the first mixing detector is electrically connected with the first mixing controller; the first mixing detector detects the quality of geomembrane raw materials in the stirring hopper, and the first mixing controller is electrically connected with the driving motor.

Further, the mixing device further comprises a second mixing detector and a second mixing controller, wherein the second mixing detector is electrically connected with the second mixing controller; the feeding hopper has a plurality of and has switch valve respectively, the second compounding detector with a plurality of switch valve electric connection, the second compounding detector detects a plurality of switch valve's on-off state, the second compounding controller with driving motor electric connection.

Further, this application still includes the display, the display with driving motor electric connection.

Furthermore, the automatic feeding device further comprises a batching mechanism, wherein the batching mechanism comprises a batching hopper and a quality control unit, and the stirring hopper is communicated with the feeding hopper through the batching hopper; the quality control unit detects and controls the quality of the geomembrane raw material in the batching hopper.

Further, the quality control unit includes quality detector and quality control ware, the quality detector with quality control ware electric connection, the quality detector detects geomembrane raw materials quality in the batching is fought, quality control ware control gets into geomembrane raw materials quality in the batching is fought.

Further, the mass controller comprises a mass control valve located at the inlet of the batching hopper and/or the control valve is located at the outlet of the upper hopper.

Further, the mass detector is an automatic checkweigher.

Further, the stirring part is vertically arranged on the stirring hopper and extends to the bottom of the stirring hopper.

The beneficial effect of this application is as follows:

1. negative pressure is formed at the feeding position through a negative pressure machine, so that the geomembrane raw material is automatically extracted at the feeding position, and the workload of operators is reduced; in addition, before the raw materials of the geomembrane enter the screw extruder, the stirring structure is arranged to fully stir the raw materials of the geomembrane, so that the layering of different components in the raw materials under the action of gravity due to different material densities is avoided, the raw materials entering the screw extruder are effectively ensured to be uniformly mixed, and the quality of finished products of the geomembrane is greatly improved;

2. the stirring hopper is indirectly driven to rotate through the turntable. The turntable is connected with the stirring hopper, the driving motor can drive the stirring hopper to stably rotate by driving the turntable, the occupied space of the turntable is small, and the driving mode between the driving motor and the turntable can be a gear or belt transmission mode and the like, so that the driving motor can be arranged at other proper positions, the space of the stirring hopper is saved, the arrangement among all parts is compact, and the reliability of stirring work is not influenced;

3. different raw material qualities of the geomembrane raw materials stirred in the stirring hopper correspond to different stirring actions, so that the consistency of stirring effects is ensured, and the adaptability of the device is enhanced;

4. different component types of the geomembrane raw material stirred in the stirring hopper correspond to different stirring actions, so that the full and uniform stirring effect is effectively ensured, and the adaptability of the device is enhanced;

5. the quality control unit detects and controls the quality of the batching hopper, can finish the matching work among different composition components of the geomembrane raw material, is convenient for accurately control the mixing proportion of the geomembrane raw material, effectively ensures the quality of a geomembrane finished product, and can prevent the conditions of material shortage and material overflow.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and not to limit the utility model. In the drawings:

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

FIG. 2 is a schematic view of a portion of a mixing mechanism according to an embodiment of the present application;

FIG. 3 is a schematic view of a portion of a loading mechanism according to an embodiment of the present application;

fig. 4 is a partial schematic structural view of a dosing mechanism according to an embodiment of the present application.

1. A screw extruder;

2. a feeding mechanism; 21. a raw material hopper; 22. a negative pressure machine; 23. feeding a hopper;

3. a material mixing mechanism; 31. a stirring hopper; 32. a stirring member; 33. a drive member; 331. a turntable; 332. a drive motor;

4. a first mixed material detector;

5. a first mixing controller;

6. a second mixed material detector;

7. opening and closing the valve;

8. a display;

9. a batching mechanism; 91. a batching hopper; 92. a mass detector; 93. and a quality controller.

Detailed Description

In order to more clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will now be described with reference to the accompanying drawings, in which the same reference numerals indicate the same or structurally similar but functionally identical elements.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

As background art, in the prior art, during geomembrane production, different components of geomembrane raw materials can form layering under the action of gravity due to different densities in the feeding process, so that the existing feeding device has the problems of easy shortage or uneven mixing of flash and raw materials and the like, the produced geomembrane has poor quality, and serious production economic loss can be caused. Moreover, once the supply of raw materials of the geomembrane has problems, technicians are required to repeatedly climb the ladder to check the feeding condition of the feeding device, a great amount of time and energy are consumed, and the production efficiency is affected.

Therefore, the application provides an automatic feeding and mixing device for geomembrane raw materials, and fig. 1 is a schematic structural diagram of an embodiment of the application; FIG. 2 is a schematic view of a portion of a mixing mechanism according to an embodiment of the present application; FIG. 3 is a schematic view of a portion of a loading mechanism according to an embodiment of the present application; fig. 4 is a partial schematic structural view of a dosing mechanism according to an embodiment of the present application.

Referring to fig. 1 to 4, an automatic loading and mixing device for geomembrane raw materials mixes the geomembrane raw materials and guides the mixed materials into a screw extruder 1, which includes a loading mechanism 2 and a mixing mechanism 3; the feeding mechanism 2 comprises a raw material hopper 21, a negative pressure machine 22 and a feeding hopper 23, the feeding hopper 23 is respectively communicated with the raw material hopper 21 and the negative pressure machine 22, and the negative pressure machine 22 enables negative pressure to be formed in the feeding hopper 23 so as to extract the geomembrane raw material in the raw material hopper 21; the mixing mechanism 3 comprises a stirring bucket 31 communicated with the feeding hopper 23, and further comprises a stirring piece 32 and a driving piece 33, wherein the stirring piece 32 is fixedly arranged in the stirring bucket 31, the stirring bucket 31 is connected with the driving piece 33 to rotate, and the stirring bucket 31 is connected with the screw extruder 1.

The upper hopper 23 is respectively connected with the raw material hopper 21 and the negative pressure machine 22, the negative pressure machine 22 is connected with the upper end of the upper hopper 23, the raw material hopper 21 is connected with the side part of the upper hopper 23 through a material conveying pipeline, the negative pressure machine 22 extracts air in the upper hopper 23 to enable negative pressure to be formed in the upper hopper 23, and in order to balance pressure intensity, the upper hopper 23 can automatically extract a geomembrane raw material in the raw material hopper 21 through the material conveying pipeline, so that automatic feeding is realized, the structure is simple, the work is reliable, and the workload of operators is reduced; go up hopper 23 lower part and still be connected with stirring hopper 31 through the conveying pipeline, after the geomembrane raw materials in feeding hopper 23 reachd a certain amount, feeding hopper 23 can be to the geomembrane raw materials of discharging in the stirring hopper 31, be equipped with the stirring piece 32 of fixed setting in the stirring hopper 31, stirring hopper 31 links to each other with driving piece 33, under the drive of driving piece 33, stirring hopper 31 can rotate, and the stirring piece 32 of fixed setting does not rotate, consequently stirring hopper 31 and stirring piece 32 can take place relative rotation, can stir the geomembrane raw materials of being discharged to in the stirring hopper 31 from this, guarantee effectively that the raw materials that get into screw extruder 1 are the homogeneous mixing, improve the off-the-shelf quality of geomembrane greatly, and the structure is simple, and is low in cost.

It should be understood by those skilled in the art that the feeding hopper 23 can be provided in multiple numbers, and cooperate with each other to continuously feed, so that the discharge of the raw material of the geomembrane is stable and continuous; a plurality of feeding hoppers 23 can also be divided into groups, and the materials of different components in the geomembrane raw materials are held in every group of feeding hoppers 23, so that the raw material proportioning is convenient to carry out.

For the sake of understanding, it should be noted that, in fig. 1, the feeding hoppers 23 correspond to the batching hoppers 91 one by one, the feeding hoppers 23 are respectively connected to different batching hoppers 91, the batching hoppers 91 are arranged in a central symmetry, and only a part of the batching hoppers 91 can be seen because the drawing is in a front view.

Illustratively, referring to fig. 2, the driving member 33 includes a rotating disc 331 and a driving motor 332 for driving the rotating disc 331 to rotate, the rotating disc 331 is connected to the stirring bucket 31, and the rotating disc 331 drives the stirring bucket 31 to rotate under the driving of the driving motor 332.

In order to stir the raw materials of the geomembrane uniformly and ensure the reliability of stirring work, the stirring hopper 31 needs to rotate stably, the space of the position where the stirring hopper 31 is located is limited, and the driving motor 332 cannot be directly arranged, so that the position of the driving motor 332 needs to be reasonably arranged, the rotating disc 331 is arranged, and the stirring hopper 31 is indirectly driven to rotate through the rotating disc 331. The rotary table 331 is connected with the stirring bucket 31, the driving motor 332 can drive the stirring bucket 31 to stably rotate through the driving rotary table 331, the occupied space of the rotary table 331 is small, and transmission modes such as gear transmission or belt transmission can be set between the driving motor 332 and the rotary table 331, so that the driving motor 332 can be arranged at other suitable positions, the space of the position of the stirring bucket 31 is saved, the arrangement among all parts is compact, and the reliability of stirring operation is not influenced.

It should be understood by those skilled in the art that the rotating disc 331 can be connected to the bottom of the stirring hopper 31, or can be sleeved outside the stirring hopper 31 to rotate the stirring hopper 31.

Illustratively, referring to fig. 2, in a specific embodiment, the present application further includes a first mixing detector 4 and a first mixing controller 5, wherein the first mixing detector 4 is electrically connected to the first mixing controller 5; first compounding detector 4 detects the geomembrane raw materials quality in stirring fill 31, first compounding controller 5 and driving motor 332 electric connection.

It will be understood by those skilled in the art that, for the same stirring time or stirring force, the quality of the geomembrane raw material in the stirring hopper 31 may affect the stirring effect, therefore, the first mixing detector 4 is arranged to detect the quality of the geomembrane raw material in the stirring hopper 31, the first mixing detector 4 is electrically connected with the first mixing controller 5, the first mixing controller 5 is electrically connected with the driving motor 332, after the first mixing controller 5 receives and analyzes the measurement data of the first mixing detector 4 on the quality of the geomembrane raw material in the stirring hopper 31, the driving motor 332 is controlled, for example, the operation time of the driving motor 332 is controlled, and thus, carry out the geomembrane raw materials of stirring in stirring fill 31, different raw materials quality corresponds different stirring actions, has guaranteed the uniformity of stirring effect to the adaptability of this application has been strengthened.

Illustratively, referring to fig. 2 and 3, in a specific embodiment, the present application further includes a second mixing detector 6 and a second mixing controller, the second mixing detector 6 being electrically connected to the second mixing controller; the feeding hopper 23 is provided with a plurality of switch valves, the second mixing detector 6 is electrically connected with the switch valves, the second mixing detector 6 detects the switch states of the switch valves, and the second mixing controller is electrically connected with the driving motor 332.

It should be understood by those skilled in the art that finished products made of different geomembrane raw materials have different use effects, and the geomembrane raw materials with different components have different characteristics, so that the components of the geomembrane raw materials in the stirring hopper 31 can affect the stirring effect under the same stirring time or stirring force, therefore, the material feeding hopper 23 for holding different geomembrane raw material components is provided with a switch valve, and a second material mixing detector 6 is electrically connected with the switch valve, the second material mixing detector 6 detects the component types of the geomembrane raw materials entering the stirring hopper 31, the second material mixing detector 6 is electrically connected with a second material mixing controller, the second material mixing controller is electrically connected with the driving motor 332, and after the second material mixing controller receives and analyzes the measurement data of the component types of the geomembrane raw materials in the stirring hopper 31 by the second material mixing detector 6, control driving motor 332, for example, control driving motor 332's operating time, from this, carry out the geomembrane raw materials that stirs in stirring bucket 31, different stirring actions are corresponded to different composition kinds, have guaranteed effectively that the stirring effect is abundant even to the adaptability of this application has been strengthened. The location of the second compounding controller may be set at the location of the first compounding controller 5.

It should be understood by those skilled in the art that the detection of the component types of the geomembrane raw material entering the stirring hopper 31 by the second mixing detector 6 may include the detection of the number of the component types, or the detection of the combination result of different component types, the signals of the switch valves of the feeding hoppers 23 holding different geomembrane raw material components are different, the detection result of the second mixing detector 6 is different, and thus the control of the second mixing controller to the driving motor 332 is different.

Illustratively, referring to fig. 1, in a specific embodiment, the present application further comprises a display 8, wherein the display 8 is electrically connected to the driving motor 332.

When operating personnel need understand the stirring effect of geomembrane raw materials, unable direct observation, and the mixing state of compounding can be embodied by driving motor 332's work, from this, sets up display 8, with display 8 and driving motor 332 electric connection to show driving motor 332's operating condition, make the compounding state visual, made things convenient for operating personnel to know the stirring work of geomembrane raw materials.

Illustratively, referring to fig. 1 and 4, in the specific embodiment, the present application further comprises a batching mechanism 9, wherein the batching mechanism 9 comprises a batching hopper 91 and a quality control unit, and the stirring hopper 31 is communicated with the feeding hopper 23 through the batching hopper 91; the quality control unit detects and controls the quality of the geomembrane raw material in the batching hopper 91.

As will be appreciated by those skilled in the art, the geomembrane raw material has different components, and the different components have specific mixing ratios, in order to accurately control the mixing ratio, the proportioning mechanism 9 is provided to proportion the geomembrane raw material, and the geomembrane raw material is discharged into the stirring hopper 31 to be stirred after the proportioning is completed. Specifically, different composition has different feeding funnel 23 in the geomembrane raw materials, feeding funnel 23 discharges in proper order, arrange different composition into in the batching fill 91 in proper order, the quality control unit detects and controls the quality of batching fill 91 this moment, can accomplish the ratio work between the different composition of geomembrane raw materials from this, the accurate control geomembrane raw materials's of being convenient for mixing proportion guarantees the off-the-shelf quality of geomembrane effectively, and can prevent the condition of lack of material, flash.

Illustratively, referring to fig. 4, the quality control unit comprises a quality detector 92 and a quality controller 93, the quality detector 92 is electrically connected with the quality controller 93, the quality detector 92 detects the quality of the geomembrane raw material in the batching hopper 91, and the quality controller 93 controls the quality of the geomembrane raw material entering the batching hopper 91.

Quality detector 92 and quality controller 93 signal connection, quality controller 93 receive and the quality testing result of analysis quality detector 92 to this controls the geomembrane raw materials quality in the batching fill 91, and the reaction is sensitive, and control is effective.

Illustratively, the quality controller 93 includes a quality control valve located at the inlet of the batching hopper 91 and/or a control valve located at the outlet of the upper hopper 23.

The quality of the geomembrane raw material entering the batching hopper 91 can be controlled by opening or closing the inlet of the batching hopper 91 and/or the outlet of the loading hopper 23, and the geomembrane raw material feeding device is simple in structure and low in cost.

Illustratively, the mass detector 92 is an automated checkweigher.

Can accomplish from this and examine heavily to the automation of batching fill 91, realize the automation, improve production efficiency and operational reliability, simple structure, the cost is low.

Illustratively, referring to fig. 2, the stirring member 32 is vertically disposed on the stirring hopper 31, and extends to the bottom of the stirring hopper 31.

Stirring piece 32 is fixed to be set up in stirring fill 31, when stirring fill 31 rotates, stirring piece 32 does not take place to rotate, stirring fill 31 takes place relative rotation with stirring piece 32 from this, the geomembrane raw materials in stirring fill 31 can be stirred from this, with stirring piece 32 vertical setting in stirring fill 31, extend to the bottom of stirring fill 31, can increase the area of contact of stirring piece 32 with the geomembrane raw materials, promote stirring effect, make the stirring of geomembrane raw materials more even.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the system embodiment, since it is substantially similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

The above are merely examples of the present invention, and are not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. The utility model provides an automatic feeding compounding device for geomembrane raw materials, it will the guiding-in screw extruder after the geomembrane raw materials mixes, its characterized in that includes:

the feeding mechanism and the mixing mechanism; wherein the content of the first and second substances,

the feeding mechanism comprises a raw material hopper, a negative pressure machine and a feeding hopper, wherein the feeding hopper is respectively communicated with the raw material hopper and the negative pressure machine, and the negative pressure machine enables negative pressure to be formed in the feeding hopper so as to extract the geomembrane raw material in the raw material hopper;

the mixing mechanism comprises a stirring hopper communicated with the feeding hopper, a stirring piece and a driving piece, wherein the stirring piece is fixedly arranged in the stirring hopper, the stirring hopper is connected with the driving piece to rotate, and the stirring hopper is connected with the screw extruder.

2. The automatic feeding and mixing device for the geomembrane raw material as claimed in claim 1, wherein said driving member comprises a turntable and a driving motor for driving the turntable to rotate, said turntable is connected to said stirring hopper, and said turntable is driven by said driving motor to drive said stirring hopper to rotate.

3. The automatic feeding and mixing device for the geomembrane raw material according to claim 2, further comprising a first mixing detector and a first mixing controller, wherein the first mixing detector is electrically connected with the first mixing controller; the first mixing detector detects the quality of geomembrane raw materials in the stirring hopper, and the first mixing controller is electrically connected with the driving motor.

4. The automatic feeding and mixing device for the geomembrane raw material according to claim 2, further comprising a second mixing detector and a second mixing controller, wherein the second mixing detector is electrically connected with the second mixing controller; the feeding hopper has a plurality of and has switch valve respectively, the second compounding detector with a plurality of switch valve electric connection, the second compounding detector detects a plurality of switch valve's on-off state, the second compounding controller with driving motor electric connection.

5. The automatic feeding and mixing device for the geomembrane raw material according to claim 3 or 4, further comprising a display, wherein the display is electrically connected with the driving motor.

6. The automatic feeding and mixing device for geomembrane raw materials according to claim 1, further comprising a batching mechanism, wherein the batching mechanism comprises a batching hopper and a quality control unit, and the stirring hopper is communicated with the feeding hopper through the batching hopper; the quality control unit detects and controls the quality of the geomembrane raw material in the batching hopper.

7. The automatic feeding and mixing device for geomembrane raw materials according to claim 6, wherein the quality control unit comprises a quality detector and a quality controller, the quality detector is electrically connected with the quality controller, the quality detector detects the quality of the geomembrane raw materials in the mixing hopper, and the quality controller controls the quality of the geomembrane raw materials entering the mixing hopper.

8. The automatic geomembrane material feeding and mixing apparatus according to claim 7, wherein said quality controller comprises a quality control valve at an inlet of said batching hopper and/or at an outlet of said feeding hopper.

9. The automatic feeding and mixing device for geomembrane raw materials according to claim 7, wherein said quality detector is an automatic checkweigher.

10. The automatic feeding and mixing device for geomembrane raw materials according to claim 1, wherein said stirring member is vertically disposed at said stirring hopper to extend to a bottom of said stirring hopper.

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