CN113353304A

CN113353304A - Activated carbon production mixes quick-witted automatic packing device with stirring

Info

Publication number: CN113353304A
Application number: CN202110659236.6A
Authority: CN
Inventors: 吴祖武; 黄正祥; 贝怀先
Original assignee: Huai'an Hongrui Carbon Industry Technology Co ltd
Current assignee: Huai'an Hongrui Carbon Industry Technology Co ltd
Priority date: 2021-06-15
Filing date: 2021-06-15
Publication date: 2021-09-07
Anticipated expiration: 2041-06-15
Also published as: CN113353304B

Abstract

The invention discloses an automatic packaging device of a stirring mixer for producing activated carbon. After the slurry enters the stirring cavity, the bottom bevel gear disc in the stirring cavity rotates under the driving of the motor, the first bevel gear disc, the second bevel gear disc, the third bevel gear disc and the fourth bevel gear disc are driven by the rotation, the opposite gears do reverse motion, teeth are arranged on each bevel gear disc, the teeth drive the slurry to move, vortexes in all directions are formed, the slurry is fully mixed, the lifting hydraulic rod drives the stirring cutter to move up and down, can effectively cut and disperse the slurry flowing regularly, and repeatedly operate to achieve the best stirring and mixing effect, the mixed slurry enters the material storage box on the receiving tray through the discharge port, when the slurry in the storage box reaches a certain value, the material placing plate on the storage box is opened and discharges the slurry, and the slurry enters the packing box.

Description

Activated carbon production mixes quick-witted automatic packing device with stirring

Technical Field

The invention relates to the technical field of activated carbon preparation, in particular to an automatic packaging device of a stirring mixer for activated carbon production.

Background

The use of the activated carbon material becomes a new future of the material at the present stage, and therefore, the use of the activated carbon breaks through the only purification effect, so that the use of the activated carbon becomes wider, the preparation becomes extremely important, the traditional stirrer cannot meet the required requirements, the operation is time-consuming and labor-consuming, the efficiency is low, the effect is poor, the suppliers cannot feel unhappy, the existing stirrer in the market at present is difficult to adapt to the market demand at present, and the stirring and mixing of the activated carbon material are also difficult to adapt to.

Various mixers have been made to solve this problem, which has led to a mix of fauna mixers in the consumer market, making the use of mixers by purchasers not secure. Chinese utility model patent specification CN201920654821.5 discloses an active carbon carrier mixer, this mixer includes: the carrier supply assembly is used for stirring and supplying carrier solution in the mixing container, and the rotating assembly is suitable for driving the mixing container to rotate, so that the activated carbon particles in the mixing container can be uniformly mixed with the carrier solution. This active carbon carrier mixer adds carrier solution gradually at the stirring in-process, can guarantee the two and mix the degree of consistency, and the churning time can shorten by a wide margin, can also make the carrier dissolve and form carrier solution in the solvent simultaneously, can with the better mixture of active carbon granule, improved stirring effect.

The stirrer is simple to use and strong in operability, but still has some problems, one of which is that: the limitation is too narrow, only is suitable for the mixture of carrier solution and activated carbon granule, and the result of use is limited, and its two: the solution removal is troublesome and the quantitative packaging cannot be carried out.

Disclosure of Invention

The invention aims to provide an automatic packaging device of a stirring mixer for producing activated carbon, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: an automatic packaging device of a stirring mixer for producing active carbon comprises a box body, a feed inlet, a stirring cavity, a motor, a lifting hydraulic rod base, a bottom bevel gear disc, a first bevel gear disc, a second bevel gear disc, a third bevel gear disc, a fourth bevel gear disc and a stirring cutter, wherein the inside of the box body is provided with the stirring cavity which is a spherical cavity, the inside of the stirring cavity is provided with the bottom bevel gear disc, the bottom bevel gear disc is arranged at the bottom inside the stirring cavity, the surfaces of the bottom bevel gear disc, the first bevel gear disc, the second bevel gear disc, the third bevel gear disc and the fourth bevel gear disc are provided with teeth, and the teeth can more effectively drive the slurry to rotate, thereby forming more powerful eddy current, the first bevel gear disc and the second bevel gear disc are symmetrical about the central axis of the stirring cavity, the third bevel gear disc and the fourth bevel gear disc are symmetrical about the central axis of the stirring cavity, the symmetrical structure can make the slurry in the stirring cavity more uniform, and simultaneously the uniformity degree of the slurry is also increased, the first bevel gear disc, the second bevel gear disc, the third bevel gear disc and the fourth bevel gear disc are meshed with the gears on the bottom bevel gear disc, the meshed gears can achieve the transmission effect, and other gears are driven by one bottom bevel gear disc, thereby not only saving materials, but also simplifying the structure, and making the principle more clear, the bottom bevel gear disc is internally provided with a bottom bevel gear disc bearing which can reduce the damage of the active carbon slurry to the bottom bevel gear disc, and the kinetic energy transmitted by the motor can not be reduced, the motor is arranged below the bottom bevel gear disc, the transfer line on the motor passes end bevel gear dish bearing, be provided with the lift hydraulic stem base in the box, the lift hydraulic stem passes through the lift hydraulic stem and sets up in the box, the lift hydraulic stem passes stirring cavity section of thick bamboo wall, the lift hydraulic stem lower extreme is provided with stirring tool, stirring tool is latticed cutter, the reciprocating of lift hydraulic stem frequency, break original vortex motion law, make and mix more fully, the bold particulate matter that exists in the thick liquids also can be broken up to latticed structure simultaneously, make to dissolve more in the same direction as sliding.

Be provided with first bearing in the first bevel gear dish, be provided with the second bearing in the second bevel gear dish, be provided with the third bearing in the third bevel gear dish, be provided with the fourth bearing in the fourth bevel gear dish, the bearing is equipped with on the bevel gear dish, can reduce the bevel gear dish and turn the resistance that forms, has reduced the damage of bevel gear dish axle, increases bevel gear dish's life.

The device of adopting structure like this reaches the transmission relation through bevel gear's principle to form the linked system, the linked system who forms will drive thick liquids and form the vortex, the vortex is under the effect of stirring cutter, and thick liquids can be broken up, and large-scale particulate matter is smashed, reaches anticipated mixed effect, and simple structure keeps away from clearly, and use value is high, and is more high-efficient than traditional mixer.

This packing plant still has the feed and arranges the material subassembly, be provided with the feed inlet in the box, the feed inlet sets up in stirring cavity upper end, be used for the injection into the thick liquids that are about to process, stirring cavity is provided with first discharge gate, the second discharge gate, third discharge gate and fourth discharge gate, first discharge gate and third discharge gate are symmetrical about stirring cavity mid-plane, the second discharge gate is symmetrical about stirring cavity mid-plane with the fourth discharge gate, the discharge gate of symmetry is identical with the position of the bevel gear dish of symmetry, and symmetrical structure has also reduced the thick liquids and has remained in the cavity.

The packaging device also comprises a packaging assembly, the packaging assembly comprises a first discharging plate, a second discharging plate, a third discharging plate, a fourth discharging plate sliding block, a first storage box, a second storage box, a third storage box, a fourth storage box and a receiving disc, the receiving disc is arranged in the box body, the first storage box, the second storage box, the third storage box and the fourth storage box are arranged on the receiving disc, the first discharging plate is arranged on the first storage box through a fixed shaft, the sliding block is arranged on the first discharging plate, the second discharging plate is arranged on the second storage box through a fixed shaft, the sliding block is arranged on the second discharging plate, the third discharging plate is arranged on the third storage box, and the third discharging plate is arranged on the third storage box through a fixed shaft, the third discharging plate is provided with a sliding block, the fourth storage box is provided with a fourth discharging plate, the fourth discharging plate is arranged on the fourth storage box through a fixed shaft, the fourth discharging plate is provided with a sliding block, the position of the sliding block is provided with a position which can be changed and can adjust the amount of packaging through adjusting the sliding speed, when mixed slurry enters the storage box, downward gravity is formed, when the gravity of the slurry exceeds the maximum supporting force of the sliding block for the discharging plate, the discharging plate rotates along the fixed shaft, the sliding block moves to the position near the storage box, after the slurry of the storage box is completely discharged, the sliding block drives the discharging plate to return to the original position, the sliding block also slides to the original position and does reciprocating motion, and the total structure can effectively achieve the effect of quantitative discharging.

The material receiving disc is arranged below the motor, the axis of the motor is consistent with the axis of the material receiving disc, and the axis of the material receiving disc and the axis of the box body are on the same axis.

The receiving disc is provided with a first blocking piece, a second blocking piece, a third blocking piece and a fourth blocking piece, the first blocking piece and the third blocking piece are symmetrical about the middle surface of the receiving disc, the second blocking piece and the fourth blocking piece are symmetrical about the middle surface of the receiving disc, the blocking pieces are used for blocking the ascending material placing plate,

a plurality of packing boxes are arranged in the box body, and each packing box is arranged below the storage box.

By adopting the structural design, errors can be reduced, meanwhile, the loss of the workpiece is reduced due to the simplicity of the structure, namely, the effect of quantitative discharging is achieved, the automatic packaging process is also achieved, the complicated working process is reduced, and the device is economical and applicable.

Compared with the prior art, the invention has the following beneficial effects: the invention is superior to the traditional stirrer in the aspect of slurry treatment, the vortex generated by rotation is repeatedly recombined and fully mixed under the action of the stirring cutter, the required precision requirement can be completely met, the operation is simple, the operability is strong, the structure is simple, the later maintenance is convenient, and compared with the traditional stirrer, the invention is additionally provided with an automatic packing device, the simple quantitative packing can be realized, the practicability of the invention is wider, the packing device has a simple structure, the parts are not easy to be consumed, the service life of the machine body is prolonged, and the invention is more economical and applicable.

Drawings

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

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

FIG. 2 is a schematic view of the stirring mechanism of the present invention;

FIG. 3 is a schematic bottom view of the stirring assembly of the present invention;

FIG. 4 is a partial longitudinal cross-sectional structural schematic view of the stirring assembly of the present invention;

FIG. 5 is a partial longitudinal cross-sectional structural schematic view of the stirring assembly of the present invention;

FIG. 6 is a schematic structural view of the baling assembly of the present invention;

FIG. 7 is a schematic view of the configuration of the stirring tool of the present invention;

FIG. 8 is a schematic view of the slurry orientation configuration in the stirring assembly of the present invention;

in the figure: 1. a feed inlet; 2. a controller; 3. a lifting hydraulic rod; 4. a lifting hydraulic rod base; 5. a stirring cavity; 6.1, a first discharge hole; 6.2, a second discharge hole; 6.3, a third discharge hole; 6.4, a fourth discharge hole; 7.1, a first baffle plate; 7.2, a second baffle plate; 7.3, a third baffle; 7.4, a fourth baffle; 8.1, a first material discharging plate; 8.2, a second discharging plate; 8.3, a third discharging plate; 8.4, a fourth discharging plate; 9. a slider; 10.1, a first storage box; 10.2 a first discharging plate baffle sheet; 10.3, a second storage box; 10.4, a baffle plate of a second discharging plate; 10.5, a third storage box; 10.6, a baffle plate of a third discharging plate; 10.7, a fourth storage box; 10.8 a baffle of a fourth discharging plate; 11. packing a box; 12. a box body; 13. a bottom bevel gear plate; 13.1, a first bevel gear disc, 13.2 and a second bevel gear disc; 13.3, a third bevel gear disc; 13.4, a fourth bevel gear disc; 14. stirring a cutter; 15. a motor; 16. a bottom bevel gear disc bearing; 16.1, a first bearing; 16.2, a second bearing; 16.3, a third bearing; 16.4, a fourth bearing; 17. a take-up pan.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides the following technical solutions:

as shown in figures 1 and 2, the automatic packaging device for the stirring mixer for producing the activated carbon comprises a box body 12, a feeding hole 1, a stirring cavity 5, a motor 15, a lifting hydraulic rod 3, a lifting hydraulic rod base 4, a bottom bevel gear disc 13, a first bevel gear disc 13.1, a second bevel gear disc 13.2, a third bevel gear disc 13.3, a fourth bevel gear disc 13.4 and a stirring cutter 14, wherein a controller 2 is arranged on one side of the box body 12, the stirring cavity 5 is arranged in the box body 12 and is a spherical cavity, the spherical cavity can reduce the hanging drops of slurry, the bottom bevel gear disc 13 is arranged in the stirring cavity 5, the bottom bevel gear disc 13 is arranged at the bottom in the stirring cavity 5, the first bevel gear disc 13.1, the second bevel gear disc 13.2, the third bevel gear disc 13.3 and the fourth bevel gear disc 13.4 are arranged above the bottom bevel gear 13 and in the stirring cavity 5, the bottom bevel gear disc 13, Teeth are arranged on the surfaces of a first bevel gear disc 13.1, a second bevel gear disc 13.2, a third bevel gear disc 13.3 and a fourth bevel gear disc 13.4, the first bevel gear disc 13.1 and the second bevel gear disc 13.2 are symmetrical about the central axis of a stirring cavity 5, the third bevel gear disc 13.3 and the fourth bevel gear disc 13.4 are symmetrical about the central axis of the stirring cavity 5, the first bevel gear disc 13.1, the second bevel gear disc 13.2, the third bevel gear disc 13.3 and the fourth bevel gear disc 13.4 are meshed with gears on a bottom bevel gear disc 13, a bottom bevel gear disc bearing 16 is arranged in the bottom bevel gear 13, a motor 15 is arranged below the bottom bevel gear disc 13, a transmission rod on the motor 15 penetrates through the bottom bevel gear disc bearing 16, a lifting hydraulic rod base 4 is arranged in a box body 12, a lifting hydraulic rod 3 penetrates through the wall of the stirring cavity 5, a stirring cutter 14 is arranged at the lower end of the lifting hydraulic rod 3, as shown in fig. 7, the stirring tool 14 is a grid tool, and the structure design is adopted, so that the slurry is fully stirred and mixed therein, and the mixing effect is significantly improved, as shown in fig. 8, the motion state of the slurry in the stirring cavity is in a vortex shape, and under the action of the stirring tool, the vortex can be scattered and reunited, and the bottom bevel gear disc bearing 16 is arranged in the bottom bevel gear disc 13, so that the damage to the motor 15 can be effectively reduced, and the buffering effect is also added to the bottom bevel gear disc 13.

As shown in fig. 4 and 5, a first bearing 16.1 is arranged in the first bevel gear disc 13.1, a second bearing 16.2 is arranged in the second bevel gear disc 13.2, a third bearing 16.3 is arranged in the third bevel gear disc 13.3, and a fourth bearing 16.4 is arranged in the fourth bevel gear disc 13.4, so that the lubricating property of the bevel gear disc in the rotating process can be effectively increased by adopting the structural design, the heat generated by friction is reduced, the shape of the bevel gear disc is protected, the service life of the bevel gear disc is prolonged, and the damage to the motor 15 caused by friction is also reduced.

As shown in fig. 3, a feeding port 1 is arranged in the box body 12, the feeding port 1 is arranged at the upper end of the stirring cavity 5, the stirring cavity 5 is provided with a first discharging port 6.1, a second discharging port 6.2, a third discharging port 6.3 and a fourth discharging port 6.4, the first discharging port I6.1 and the third discharging port 6.3 are symmetrical about the middle plane of the stirring cavity 5, the second discharging port 6.2 and the fourth discharging port 6.4 are symmetrical about the middle plane of the stirring cavity 5, and the problems of accumulation and insufficient stirring of the slurry formed in the stirring cavity 5 can be effectively avoided by adopting the structural design.

The device also comprises a packing component, as shown in fig. 3 and fig. 1, the packing component comprises a first material placing plate 8.1, a second material placing plate 8.2, a third material placing plate 8.3, a fourth material placing plate 8.4 slide block 9, a first material storage box 10.1, a second material storage box 10.2, a third material storage box 10.3, a fourth material storage box 10.4 and a material receiving plate 17, a material receiving plate 17 is arranged in the box body 12, the material receiving plate is provided with a first material storage box 10.1, a second material storage box 10.3, a third material storage box 10.5 and a fourth material storage box 10.7, the first material placing plate 8.1 is arranged on the first material storage box 10.1 through a fixed shaft, the first material placing plate 8.1 is provided with a slide block 9, the second material storage box 10.2 is provided with a second material placing plate 8.2, the second material placing plate 8.2 is arranged on the second material storage box 10.3 through a fixed shaft, the second material placing plate 8.2 is provided with a slide block 8.5, the third material discharging plate 8.3 is arranged on the third material storage box 10.5 through a fixing shaft, a sliding block is arranged on the third material discharging plate 8.3, the fourth material storage box 10.7 is provided with a fourth material discharging plate 8.4, the fourth material discharging plate 8.4 is arranged on the fourth material storage box 10.7 through a fixing shaft, a sliding block is arranged on the fourth material discharging plate 8.4, the components are symmetrical about the middle surface of the material receiving plate 17, each material discharging plate has an angle alpha, the angle alpha is more than 60 degrees and less than 90 degrees when the angle alpha is in a range adopted by simulation calculation, the effective quantitative discharge effect can be achieved by adopting the structural design, and slurry loss can not be caused due to the effect of the material receiving plate.

As shown in fig. 1, the receiving tray 17 is arranged below the motor 15, the axis of the motor 15 is consistent with the axis of the receiving tray 17, the axis of the receiving tray 17 and the axis of the box 12 are on the same axis, the receiving tray is provided with a first blocking piece 7.1, a second blocking piece 7.2, a third blocking piece 7.3 and a fourth blocking piece 7.4, the first blocking piece 7.1 and the third blocking piece 7.3 are symmetrical about the middle plane of the receiving tray 17, the second blocking piece 7.2 and the fourth blocking piece 7.4 are symmetrical about the middle plane of the receiving tray, the box 12 is internally provided with a plurality of baling boxes 11, each baling box 11 is arranged below the storage box, and the structure sharing the axis is adopted, so that the problem of shaking in the stirring process and the problem of errors caused in the discharging process are reduced, and the realization is simple, economical and applicable.

The working principle of the invention is as follows: in will active carbon thick liquids pour into the stirring cavity from the feed inlet, open the controller, the motor rotates, drives the end bevel gear dish, has the gear on the end bevel gear, with first bevel gear dish, second bevel gear dish, third bevel gear dish fourth bevel gear dish and end bevel gear dish meshing, consequently first bevel gear dish, second bevel gear dish, third bevel gear dish and fourth bevel gear dish will rotate along with end bevel gear dish rotates. Be provided with the tooth on every bevel gear dish, the tooth will drive the thick liquids rotation, and form the vortex of all directions, lift hydraulic stem will drive the stirring cutter this moment and reciprocate, break up the vortex thick liquids in the stirring cavity, the thick liquids that mix the stirring and accomplish will pass through first discharge gate, the second discharge gate, third discharge gate and fourth discharge gate get into first stock box, the second stock box, in third stock box and the fourth stock box, be provided with the blowing board on the stock box, install the gravity slider on the blowing board, when the thick liquids in the stock box reaches a quantitative, the blowing board will rotate downwards, and release thick liquids get into the baling box, then the blowing board is under the influence of gravity slider, will rise again, and be supported by blowing board dog, and prepare for next blowing work.

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

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an active carbon production is with stirring mixer automatic packing device which characterized in that: the packaging device comprises a box body (12), a feed inlet (1), a stirring cavity (5), a motor (15), a lifting hydraulic rod (3), a lifting hydraulic rod base (4), a bottom bevel gear disc (13), a first bevel gear disc (13.1), a second bevel gear disc (13.2), a third bevel gear disc (13.3), a fourth bevel gear disc (13.4) and a stirring cutter (14), wherein a controller (2) is arranged on one side of the box body (12), the stirring cavity (5) is arranged in the box body (12), the stirring cavity (5) is a spherical cavity, the bottom bevel gear disc (13) is arranged in the stirring cavity (5), the bottom bevel gear disc (13) is arranged at the bottom in the stirring cavity (5), the first bevel gear disc (13.1), the second bevel gear disc (13.2), the third bevel gear disc (13.3) and the fourth bevel gear disc (13.4) are arranged above the bottom bevel gear (13) and in the stirring cavity (5), the surface of the bottom bevel gear disc (13), the surface of the first bevel gear disc (13.1), the surface of the second bevel gear disc (13.2), the surface of the third bevel gear disc (13.3) and the surface of the fourth bevel gear disc (13.4) are provided with teeth, the first bevel gear disc (13.1) and the second bevel gear disc (13.2) are symmetrical about the central axis of the stirring cavity (5), the third bevel gear disc (13.3) and the fourth bevel gear disc (13.4) are symmetrical about the central axis of the stirring cavity (5), the first bevel gear disc (13.1), the second bevel gear disc (13.2), the third bevel gear disc (13.3) and the fourth bevel gear disc (13.4) are meshed with the gear on the bottom bevel gear disc (13), a bottom bevel gear disc bearing (16) is arranged in the bottom bevel gear (13), a motor (15) is arranged below the bottom bevel gear disc (13), and a transmission rod on the motor (15) passes through the bottom bevel gear disc bearing (16), the automatic stirring device is characterized in that a lifting hydraulic rod base (4) is arranged in the box body (12), the lifting hydraulic rod (3) is arranged in the box body (12) through the lifting hydraulic rod (4), the lifting hydraulic rod (3) penetrates through the wall of the stirring cavity (5), and a stirring tool (14) is arranged at the lower end of the lifting hydraulic rod (3).

2. The automatic packaging device of the stirring mixer for activated carbon production according to claim 1, characterized in that: the stirring cutter (14) is a grid cutter.

3. The automatic packaging device of the stirring mixer for activated carbon production according to claim 1, wherein; be provided with first bearing (16.1) in first bevel gear dish (13.1), be provided with second bearing (16.2) in second bevel gear dish (13.2), be provided with third bearing (16.3) in third bevel gear dish (13.3), be provided with fourth bearing (16.4) in fourth bevel gear dish (13.4).

4. The automatic packaging device of the stirring mixer for activated carbon production according to claim 3, characterized in that: the improved stirring device is characterized in that a feeding hole (1) is formed in the box body (12), the feeding hole (1) is formed in the upper end of the stirring cavity body (5), the stirring cavity body (5) is provided with a first discharging hole (6.1), a second discharging hole (6.2), a third discharging hole (6.3) and a fourth discharging hole (6.4), the first discharging hole I (6.1) and the third discharging hole (6.3) are symmetrical about the middle plane of the stirring cavity body (5), and the second discharging hole (6.2) and the fourth discharging hole (6.4) are symmetrical about the middle plane of the stirring cavity body (5).

5. The automatic packaging device of the stirring mixer for activated carbon production as claimed in claim 4, further comprising a packaging assembly, wherein: the packaging assembly comprises a first material placing plate (8.1), a second material placing plate (8.2), a third material placing plate (8.3), a fourth material placing plate (8.4), a sliding block (9), a first storage box (10.1), a second storage box (10.2), a third storage box (10.3), a fourth storage box (10.4) and a material receiving plate (17), wherein the material receiving plate (17) is arranged in the box body (12), the material receiving plate is provided with the first storage box (10.1), the second storage box (10.3), the third storage box (10.5) and the fourth storage box (10.7), the first material placing plate (8.1) is arranged on the first storage box (10.1), the first material placing plate (8.1) is arranged in the first storage box (10.1) through a fixing shaft, the sliding block (9) is arranged on the first material placing plate (8.1), the second material placing plate (8.2) is arranged on the second storage box (10.2) through the fixing shaft (10.2), be provided with a slider on second flitch (8.2), set up third flitch (8.3) on third storage box (10.5), third flitch (8.3) set up on third storage box (10.5) through a fixed axle, be provided with a slider on third flitch (8.3), be provided with fourth flitch (8.4) on fourth storage box (10.7), fourth flitch (8.4) set up on fourth storage box (10.7) through a fixed axle, be provided with a slider on fourth flitch (8.4), first storage box (10.1) and third storage box (10.5) are about the face symmetry in the middle of take-up (17), second storage box (10.3) close with fourth storage box (10.7) and take-up (17) middle face symmetry.

6. The automatic packaging device of the stirring mixer for activated carbon production according to claim 5, characterized in that: the receiving tray (17) is arranged below the motor (15), the axis of the motor (15) is consistent with the axis of the receiving tray (17), and the axis of the receiving tray (17) and the axis of the box body (12) are on the same axis.

7. The automatic packaging device of the stirring mixer for activated carbon production according to claim 6, characterized in that: the material receiving disc is provided with a first separation blade (7.1), a second separation blade (7.2), a third separation blade (7.3) and a fourth separation blade (7.4), wherein the first separation blade (7.1) and the third separation blade (7.3) are symmetrical about the middle surface of the material receiving disc (17), and the second separation blade (7.2) and the fourth separation blade (7.4) are symmetrical about the middle surface of the material receiving disc.

8. The automatic packaging device of the stirring mixer for activated carbon production according to claim 7, characterized in that: the box body (12) is internally provided with a plurality of packing boxes (11), and each packing box (11) is arranged below the storage box.