CN215586112U - A charging equipment for panel production - Google Patents

Abstract

The utility model relates to a feeding device for plate production, which comprises a mounting frame, a storage hopper, a stirring device and a feeding device. The mounting frame is arranged on the ground; the storage hopper is vertically arranged on the mounting frame, and an outlet of the storage hopper is connected with a weighing hopper; the stirring device is arranged on the mounting frame, the stirring device is positioned below the storage hopper, and an inlet of the stirring device is connected with an outlet of the metering hopper; the feeding device is arranged on the mounting frame, the feeding device is located below the stirring device, and an inlet of the feeding device is connected with an outlet of the stirring device. The mixed raw materials enter a feeding device, and then are scattered into a plate production die through the feeding device, so that the upper process of the raw materials is realized. The proportion of each composition in the raw materials has been controlled effectively to the weighing hopper, and agitating unit spreads the raw materials through feeder after with the raw materials misce bene of each composition in the mould, and the material loading process need not artifical the participation, has improved the degree of automation of material loading effectively, and then has improved efficiency.

Description

A charging equipment for panel production

Technical Field

The utility model relates to the technical field of plate production, in particular to feeding equipment for plate production.

Background

In the production process of the traditional plate, the raw materials required by plate production are usually mixed in sequence and then poured into a mold manually, the production efficiency is low, and the raw materials are easy to scatter and waste in the mixing process. In addition, because panel weight is big, the raw materials that need carry are many, and the working strength of artifical material loading is big, and efficiency is lower. In the prior art, automatic feeding equipment is provided, however, the existing automatic feeding equipment is independent of a plate production line, the proportion of each component in the raw material needs to be controlled by an independent measuring tool, the mixed raw material needs to be conveyed to a mold by transfer equipment, online feeding cannot be realized, and the production efficiency of the plate is seriously influenced.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In view of the above disadvantages and shortcomings of the prior art, the present invention provides a feeding apparatus for sheet material production, which solves the technical problem of low automation degree of the feeding apparatus.

(II) technical scheme

In order to achieve the above object, the feeding apparatus for sheet production of the present invention comprises:

a mounting frame;

the storage hoppers are vertically arranged on the mounting frame, and outlets of the storage hoppers are connected with the weighing hoppers;

the stirring device is arranged on the mounting frame, the stirring device is positioned below the storage hopper, and an inlet of the stirring device is connected with an outlet of the metering hopper; and the number of the first and second groups,

the feeding device is arranged on the mounting frame and located below the stirring device, and an inlet of the feeding device is connected with an outlet of the stirring device.

Optionally, the weighing hopper comprises a barrel body, a first opening and closing mechanism and a second opening and closing mechanism;

the cylinder body is vertically arranged on the mounting frame, a first opening is formed in the upper end of the cylinder body, a second opening is formed in the lower end of the cylinder body, the first opening is connected with an outlet of the storage hopper, and the second opening is connected with an inlet of the stirring device;

the first opening and closing mechanism is arranged at the first opening, and the second opening and closing mechanism is arranged at the second opening.

Optionally, the first opening and closing mechanism and the second opening and closing mechanism both comprise an opening and closing cylinder and a movable plate, a cylinder body of the opening and closing cylinder is connected with the mounting frame, and a piston rod of the opening and closing cylinder is connected with the movable plate;

the movable plate of the first opening and closing device is slidably arranged between the first opening and the outlet of the storage hopper;

the movable plate of the second opening and closing device is slidably arranged between the second opening and the inlet of the stirring device.

Optionally, the stirring device comprises a stirring driving mechanism, a stirring mechanism and a discharging mechanism;

the stirring mechanism is arranged on the mounting frame, an inlet of the stirring mechanism is connected with an outlet of the metering hopper, and an outlet of the stirring mechanism is connected with an inlet of the feeding device through the discharging mechanism;

the stirring driving mechanism is arranged on the stirring mechanism and is in driving connection with the stirring mechanism.

Optionally, the stirring mechanism comprises a cylinder, a stirring blade, a cover plate and a bottom plate;

the cylinder body is of a cylinder structure with openings at two ends, and is vertically arranged between the storage hopper and the feeding device;

the stirring blade is rotationally arranged in the cylinder body, and the stirring driving mechanism can drive the stirring blade to rotate;

the cover plate is arranged at the first end of the cylinder body, a plurality of stirring feed inlets are formed in the cover plate, and the stirring feed inlets are connected with outlets of the weighing hoppers in a one-to-one correspondence manner;

the bottom plate set up in the second end of barrel, the stirring drain hole has been seted up on the bottom plate, the stirring drain hole passes through drop feed mechanism connects feeder's entry.

Optionally, the discharging mechanism comprises a discharging cylinder, a connecting rod and a discharging plate;

the cylinder body of the discharging cylinder is rotatably arranged on the cylinder body, and a piston rod of the discharging cylinder is connected with the first end of the connecting rod;

the discharging plate is rotationally arranged on the cylinder, and the second end of the connecting rod is rotationally connected with the discharging plate;

the discharging plate can be continuously switched among a first state, a second state and a third state, wherein the first state is that the discharging plate completely covers the stirring discharging hole; the second state is that the discharging plate partially covers the stirring discharging hole, and the third state is that the discharging plate is completely separated from the stirring discharging hole.

Optionally, the discharging plate comprises a plate body and a rotating shaft;

the rotating shaft is vertically connected with the plate body and is rotationally connected with the outer side wall of the barrel;

the second end of the connecting rod is connected with the plate body through a fisheye joint.

Optionally, the feeding device comprises a feeding rack, a feeding bin, a stirring unit and a dosing unit;

the feeding machine frame is arranged on the mounting frame, the feeding bin is arranged on the feeding rack, and the stirring unit is arranged in the feeding bin;

the feeding bin is provided with a feeding inlet and a feeding discharge port, and the feeding inlet is connected with an outlet of the stirring device; the dosing unit is arranged in the feeding and discharging port and used for dosing.

Optionally, the stirring unit comprises a first driving member, a stirring shaft and a stirring wheel;

the stirring shaft is arranged in the feeding bin and is rotationally connected with the feeding bin;

the stirring wheel is fixedly sleeved on the stirring shaft;

the first driving piece is arranged outside the feeding bin and can drive the stirring shaft to rotate.

Optionally, the dosing unit comprises a star-shaped feeding shaft and a second driving piece, the star-shaped feeding shaft is rotatably arranged at the feeding and discharging port, and a plurality of feeding grooves are uniformly formed in the star-shaped feeding shaft along the axial direction;

the second driving piece is arranged on the feeding bin and can drive the star-shaped feeding shaft to rotate.

(III) advantageous effects

The raw materials in the storage hopper enter the stirring device to be stirred and mixed after passing through the metering hopper, the mixed raw materials enter the feeding device, and the mixed raw materials are scattered into the plate production die through the feeding device, so that the upper process of the raw materials is realized. The proportion of each composition in the raw materials has been controlled effectively to the weighing hopper, and agitating unit spreads the raw materials through feeder after with the raw materials misce bene of each composition in the mould, and the material loading process need not artifical the participation, has improved the degree of automation of material loading effectively, and then has improved material loading efficiency.

Drawings

FIG. 1 is a schematic structural diagram of a feeding device for sheet production according to the present invention;

FIG. 2 is a schematic structural diagram of a stirring device of the feeding equipment for plate production, which is disclosed by the utility model;

FIG. 3 is a schematic structural diagram of a feeding device of the feeding equipment for sheet production, provided by the utility model;

FIG. 4 is a partial cross-sectional view of a feeding device of the feeding apparatus for sheet production according to the present invention;

fig. 5 is a cross-sectional view of a star-shaped feeding shaft of the feeding apparatus for sheet production of the present invention.

[ description of reference ]

1: a mounting frame; 2: a storage hopper;

3: a measuring hopper; 31: a barrel body; 32: a first opening and closing mechanism; 33: a second opening and closing mechanism; 34: a first opening; 35: a second opening; 36: an opening and closing cylinder; 37: a movable plate;

4: a stirring device; 41: a stirring drive mechanism;

421: a barrel; 422: a cover plate; 423: a base plate; 424: a stirring feed port; 425: stirring and discharging the material port;

431: a discharging cylinder; 432: a connecting rod; 433: a plate body; 434: a rotating shaft; 435: a fisheye joint;

5: a feeding device; 51: a feeding frame; 52: a feeding bin; 521: a feed inlet; 522: a feeding and discharging port;

531: a first driving member; 532: a stirring shaft; 533: a stirring wheel;

541: a star-shaped feed shaft; 542: a second driving member; 543: a feed trough.

Detailed Description

For the purpose of better explaining the present invention and to facilitate understanding, the present invention will be described in detail by way of specific embodiments with reference to the accompanying drawings. In which the terms "upper", "lower", etc. are used herein with reference to the orientation of fig. 1.

For a better understanding of the above-described technical solutions, exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the utility model are shown in the drawings, it should be understood that the utility model can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the utility model to those skilled in the art.

As shown in FIG. 1, the utility model provides a feeding device for plate production, which is erected on a plate production line to realize online feeding. The feeding equipment comprises a mounting frame 1, a plurality of storage hoppers 2, a stirring device 4 and a feeding device 5 which are arranged on the mounting frame 1 and are sequentially overlapped, the mounting frame 1 is arranged on the ground, and stairs, convenient to overhaul and feed are welded on the mounting frame 1. Specifically, the storage hopper 2 is vertically installed on the installation frame 1 and used for storing raw materials required by plate production, and the storage hopper 2 at least comprises the storage hopper 2 used for storing quartz sand and the storage hopper 2 used for storing cement. The outlet of the storage hopper 2 is connected with a measuring hopper 3, and the measuring hopper 3 is used for controlling the volume of the storage hopper 2 for discharging at each time and ensuring that the raw materials are mixed according to a set proportion. Agitating unit 4 is installed on mounting bracket 1, and agitating unit 4 is located the below of storage hopper 2, and agitating unit 4's entry is connected with the exit linkage of weighing hopper 3. The raw materials in the storage hopper 2 enter the stirring device 4 through the metering hopper 3 to be stirred and mixed, and a water pipe is further installed on the stirring device 4 and is used for introducing tap water in the raw material stirring and mixing process. The feeding device 5 is installed on the installation frame 1, the feeding device 5 is located below the stirring device 4, and an inlet of the feeding device 5 is connected with an outlet of the stirring device 4. The mixed raw materials enter a feeding device 5, and then are scattered into a plate production die through the feeding device 5, so that the upper process of the raw materials is realized. The proportion of each composition in the raw materials has been controlled effectively to weighing hopper 3, and agitating unit 4 spreads the raw materials through feeder 5 after the raw materials misce bene of each composition in the mould, and the material loading process need not artifical the participation, has improved the degree of automation of material loading effectively, and then has improved material loading efficiency.

As shown in fig. 1, the weighing hopper 3 includes a barrel 31, a first opening and closing mechanism 32, and a second opening and closing mechanism 33. Wherein, stack shell 31 is preferably cylindric hollow tube, and stack shell 31 is vertical to be installed on mounting bracket 1, and the upper end of stack shell 31 is provided with first opening 34, and the lower extreme of stack shell 31 is provided with second opening 35, and first opening 34 docks with the export of storage hopper 2, and second opening 35 is connected with agitating unit 4's entry. The first opening and closing mechanism 32 is installed at the first opening 34 and is used for opening or closing the first opening 34, when the first opening 34 is opened, the raw material in the storage hopper 2 can enter the weighing hopper 3; the second opening and closing mechanism 33 is installed in the second opening 35 for opening or closing the second opening 35, and when the second opening 35 is opened, the raw material in the weighing hopper 3 can enter the stirring device 4. When the weighing hopper 3 is used for weighing, the first opening 34 is opened first, after the weighing hopper 3 is filled, the second opening 35 is opened after the first opening 34 is closed, and the raw materials enter the stirring device 4. The first opening and closing mechanism 32 and the second opening and closing mechanism 33 are not in the open state at the same time, so that the raw material in the storage hopper 2 is prevented from directly entering the stirring device 4.

As shown in fig. 1, each of the first opening and closing mechanism 32 and the second opening and closing mechanism 33 includes an opening and closing cylinder 36 and a movable plate 37, a cylinder body of the opening and closing cylinder 36 is connected to the mounting frame 1, a piston rod of the opening and closing cylinder 36 is connected to the movable plate 37, and the movable plate 37 is driven to move by the opening and closing cylinder 36. The movable plate 37 of the first opening and closing device is slidably mounted between the first opening 34 and the outlet of the storage hopper 2; the movable plate 37 of the second opening and closing device is slidably mounted between the second opening 35 and the inlet of the stirring device 4. In a preferred embodiment, a pair of chutes are provided between the first opening 34 and the outlet of the storage hopper 2, a pair of chutes is also provided between the second opening 35 and the inlet of the stirring device 4, and the movable plate 37 is slidably connected to the chutes, and the movable plate 37 slides along the chutes under the action of the opening and closing cylinder 36.

As shown in fig. 2, the stirring device 4 includes a stirring drive mechanism 41, a stirring mechanism, and a discharge mechanism. The stirring mechanism is arranged on the mounting frame 1, the inlet of the stirring mechanism is connected with the outlet of the metering hopper 3, and the outlet of the stirring mechanism is connected with the inlet of the feeding device 5 through the discharging mechanism. The stirring driving mechanism 41 is installed on the stirring mechanism, and the stirring driving mechanism 41 is in driving connection with the stirring mechanism. Specifically, the stirring mechanism includes a cylinder 421, a stirring blade, a cover plate 422, and a bottom plate 423. The cylinder 421 is a cylinder structure with two open ends, and the cylinder 421 is vertically installed between the storage hopper 2 and the feeding device 5. The stirring blade is rotatably installed in the cylinder 421 for stirring and mixing the raw materials of the components, and the stirring driving mechanism 41 is drivingly connected to the stirring blade to drive the stirring blade to rotate. The stirring driving mechanism 41 is preferably a motor, the motor is mounted on the first end of the cylinder 421, and the rotor shaft of the motor is connected to the rotating shaft 434 of the stirring blade through a speed reducer. The first end at barrel 421 is installed to apron 422, and the first end of barrel 421 is close to weighing hopper 3, has seted up a plurality of stirring feed inlets 424 on the apron 422, and the quantity of stirring feed inlet 424 is the same with weighing hopper 3's quantity, and stirring feed inlet 424 is connected with weighing hopper 3's export one-to-one. The bottom plate 423 is installed at the second end of the cylinder 421, the second end of the cylinder 421 is close to the feeding device 5, the bottom plate 423 is provided with a stirring discharging hole 425, and the stirring discharging hole 425 is connected with the feeding inlet 521 through a discharging mechanism.

Referring to fig. 2, the discharging mechanism includes a discharging cylinder 431, a connecting rod 432, and a discharging plate. The cylinder body of the discharging cylinder 431 is rotatably installed on the cylinder 421, and the piston rod of the discharging cylinder 431 is connected with the first end of the connecting rod 432. The discharging plate comprises a plate body 433 and a rotating shaft 434, the rotating shaft 434 is vertically connected with the plate body 433, and the rotating shaft 434 is rotatably connected with the outer side wall of the cylinder 421 through a bearing. The second end of the link 432 is connected to the plate 433 by a fisheye joint 435. The discharging cylinder 431 drives the plate body 433 to rotate through the connecting rod 432, so that the plate body 433 can be continuously switched among a first state, a second state and a third state. The first state is that the plate body 433 completely covers the stirring drain hole 425, the second state is that the plate body 433 partially covers the stirring drain hole 425, the third state is that the plate body 433 completely separates from the stirring drain hole 425, and the second state must be passed when switching between the first state and the third state.

As shown in fig. 3 and 4, the feeding device 5 includes a feeding frame 51, a feeding bin 52, a stirring unit, and a dosing unit, and the feeding bin 52 is mounted on the feeding frame 51. The feeding bin 52 is provided with a feeding inlet 521 and a feeding and discharging opening 522, and the feeding inlet 521 is in butt joint with the stirring and discharging opening 425. The stirring unit includes a first driving member 531, a stirring shaft 532, and a stirring wheel 533, and the first driving member 531 is preferably a motor. The stirring shaft 532 is installed in the feeding bin 52, and the stirring shaft 532 is rotatably connected with the feeding bin 52. The stirring wheel 533 is fixedly sleeved on the stirring shaft 532, the first driving member 531 is installed outside the feeding bin 52, and the first driving member 531 is in driving connection with the stirring shaft 532. The dosing unit comprises a star-shaped feeding shaft 541 and a second driving member 542, the second driving member 542 preferably being a motor, the star-shaped feeding shaft 541 being rotatably mounted at the feeding and discharge opening 522. As shown in fig. 5, a plurality of feeding grooves 543 are uniformly formed on the outer surface of the star-shaped feeding shaft 541 along the axial direction. A second driving member 542 is mounted on the feeding bin 52, the second driving member 542 being drivingly connected to the star feeding shaft 541 for driving the star feeding shaft 541 to rotate. The star-shaped feeding shaft 541 seals the feeding and discharging hole 522, mixed materials in the feeding bin 52 cannot leak out of the feeding and discharging hole 522, when the feeding groove 543 rotates into the feeding bin 52, the feeding groove 543 is filled with the materials, the feeding groove 543 which is filled completely continues to rotate out of the feeding bin 52, and the materials fall into the plate die from the feeding groove 543 through self gravity. The volume of each feeding groove 543 is the same, the volume of the feeding grooves 543 and the number of the feeding grooves in each feeding process are controlled, so that the volume of the plate is controlled, and the control mode is simple and effective.

The raw materials in the storage hopper 2 enter the stirring device 4 through the metering hopper 3 to be stirred and mixed, the mixed raw materials enter the feeding device 5, and the mixed raw materials are scattered into the plate production mold through the feeding device 5, so that the upper process of the raw materials is realized. The proportion of each composition in the raw materials has been controlled effectively to weighing hopper 3, and agitating unit 4 is the raw materials misce bene of each composition, and later through feeder 5 with raw materials spread in the mould, through the volume of controlling feeding groove 543 and the feeding groove number when the material loading at every turn to the volume of panel has been controlled, control mode is simple effective. The feeding process does not need manual participation, the automation degree of feeding is effectively improved, and the feeding efficiency is further improved.

In the description of the present invention, it is to be understood that the terms "first", "second" and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium; either as communication within the two elements or as an interactive relationship of the two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, a first feature may be "on" or "under" a second feature, and the first and second features may be in direct contact, or the first and second features may be in indirect contact via an intermediate. Also, a first feature "on," "above," and "over" a second feature may be directly or obliquely above the second feature, or simply mean that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the second feature, or may simply mean that the first feature is at a lower level than the second feature.

In the description herein, the description of the terms "one embodiment," "some embodiments," "an embodiment," "an example," "a specific example" or "some examples" or the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it should be understood that the above embodiments are illustrative and not restrictive, and that those skilled in the art may make changes, modifications, substitutions and alterations to the above embodiments without departing from the scope of the present invention.

Claims (10)

1. A loading device for plate production, characterized in that, the loading device for plate production includes:

a mounting frame;

the storage hoppers are vertically arranged on the mounting frame, and outlets of the storage hoppers are connected with the weighing hoppers;

the stirring device is arranged on the mounting frame, the stirring device is positioned below the storage hopper, and an inlet of the stirring device is connected with an outlet of the metering hopper; and the number of the first and second groups,

the feeding device is arranged on the mounting frame and located below the stirring device, and an inlet of the feeding device is connected with an outlet of the stirring device.

2. The feeding equipment for producing the plates as claimed in claim 1, wherein the weighing hopper comprises a barrel body, a first opening and closing mechanism and a second opening and closing mechanism;

the cylinder body is vertically arranged on the mounting frame, a first opening is formed in the upper end of the cylinder body, a second opening is formed in the lower end of the cylinder body, the first opening is connected with an outlet of the storage hopper, and the second opening is connected with an inlet of the stirring device;

the first opening and closing mechanism is arranged at the first opening, and the second opening and closing mechanism is arranged at the second opening.

3. The feeding equipment for producing the plates as claimed in claim 2, wherein the first opening and closing mechanism and the second opening and closing mechanism each comprise an opening and closing cylinder and a movable plate, the cylinder body of the opening and closing cylinder is connected with the mounting frame, and the piston rod of the opening and closing cylinder is connected with the movable plate;

the movable plate of the first opening and closing device is slidably arranged between the first opening and the outlet of the storage hopper;

the movable plate of the second opening and closing device is slidably arranged between the second opening and the inlet of the stirring device.

4. The feeding equipment for producing the plates as claimed in any one of claims 1 to 3, wherein the stirring device comprises a stirring driving mechanism, a stirring mechanism and a discharging mechanism;

the stirring mechanism is arranged on the mounting frame, an inlet of the stirring mechanism is connected with an outlet of the metering hopper, and an outlet of the stirring mechanism is connected with an inlet of the feeding device through the discharging mechanism;

the stirring driving mechanism is arranged on the stirring mechanism and is in driving connection with the stirring mechanism.

5. The feeding equipment for producing the plates as claimed in claim 4, wherein the stirring mechanism comprises a cylinder, stirring blades, a cover plate and a bottom plate;

the cylinder body is of a cylinder structure with openings at two ends, and is vertically arranged between the storage hopper and the feeding device;

the stirring blade is rotationally arranged in the cylinder body, the stirring driving mechanism is arranged on the cylinder body, and the stirring driving mechanism can drive the stirring blade to rotate;

the cover plate is arranged at the first end of the cylinder body, a plurality of stirring feed inlets are formed in the cover plate, and the stirring feed inlets are connected with outlets of the weighing hoppers in a one-to-one correspondence manner;

the bottom plate set up in the second end of barrel, the stirring drain hole has been seted up on the bottom plate, the stirring drain hole passes through drop feed mechanism connects feeder's entry.

6. The feeding equipment for producing the plates as claimed in claim 5, wherein the discharging mechanism comprises a discharging cylinder, a connecting rod and a discharging plate;

the cylinder body of the discharging cylinder is rotatably arranged on the cylinder body, and a piston rod of the discharging cylinder is connected with the first end of the connecting rod;

the discharging plate is rotationally arranged on the cylinder, and the second end of the connecting rod is rotationally connected with the discharging plate;

the discharging plate can be continuously switched among a first state, a second state and a third state, wherein the first state is that the discharging plate completely covers the stirring discharging hole; the second state is that the discharging plate partially covers the stirring discharging hole, and the third state is that the discharging plate is completely separated from the stirring discharging hole.

7. The feeding equipment for producing the plates as claimed in claim 6, wherein the discharging plate comprises a plate body and a rotating shaft;

the rotating shaft is vertically connected with the plate body and is rotationally connected with the outer side wall of the barrel;

the second end of the connecting rod is connected with the plate body through a fisheye joint.

8. The feeding device for producing the sheet material according to any one of claims 1 to 3, wherein the feeding device comprises a feeding frame, a feeding bin, a stirring unit and a dosing unit;

the feeding machine frame is arranged on the mounting frame, the feeding bin is arranged on the feeding rack, and the stirring unit is arranged in the feeding bin;

the feeding bin is provided with a feeding inlet and a feeding discharge port, and the feeding inlet is connected with an outlet of the stirring device; the dosing unit is arranged in the feeding and discharging port and used for dosing.

9. The feeding equipment for producing the plate material as claimed in claim 8, wherein the stirring unit comprises a first driving member, a stirring shaft and a stirring wheel;

the stirring shaft is arranged in the feeding bin and is rotationally connected with the feeding bin;

the stirring wheel is fixedly sleeved on the stirring shaft;

the first driving piece is arranged outside the feeding bin and can drive the stirring shaft.

10. The feeding device for producing the plates as claimed in claim 8, wherein the dosing unit comprises a star-shaped feeding shaft and a second driving member, the star-shaped feeding shaft is rotatably arranged at the feeding and discharging port, and a plurality of feeding grooves are uniformly formed in the star-shaped feeding shaft along the axial direction;

the second driving piece is arranged on the feeding bin and can drive the star-shaped feeding shaft to rotate.

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