CN112079150A

CN112079150A - Bentonite storage tank blowing dust collecting system

Info

Publication number: CN112079150A
Application number: CN202010861849.3A
Authority: CN
Inventors: 张平武; 方吸云; 李应平
Original assignee: Wuhu Feishang Nonmetal Material Co ltd
Current assignee: Wuhu Feishang Nonmetal Material Co ltd
Priority date: 2020-08-25
Filing date: 2020-08-25
Publication date: 2020-12-15
Anticipated expiration: 2040-08-25
Also published as: CN112079150B

Abstract

The invention relates to the technical field of storage tank emptying, and discloses a bentonite storage tank emptying dust collecting system which comprises a storage tank, a supporting assembly, a conveying assembly, a feeding assembly, a stirring assembly, an ash discharging assembly, a recycling assembly and a discharging assembly, wherein the supporting assembly is arranged around the storage tank, the supporting component is connected with the storage tank, the conveying component is arranged beside the supporting component, the feeding component is arranged at one side of the supporting component, the stirring component is arranged inside the storage tank, the ash discharging component is arranged at the top end of the storage tank, the ash discharging component is positioned above the stirring component, the recovery component is arranged at the side of the storage tank, the discharging assembly is arranged inside the storage tank, the material storage tank is simple to use, the pollution to the environment can be reduced when the material storage tank is used for discharging and collecting dust, and the harm to the body caused by the fact that people inhale the dust by mistake is reduced.

Description

Bentonite storage tank blowing dust collecting system

Technical Field

The invention relates to the technical field of storage tank discharging, in particular to a bentonite storage tank discharging and dust collecting system.

Background

Bentonite is also called bentonite, bentonite or bentonite. The bentonite has a long history of being developed and used in China, and is only used as a detergent originally. (in the life region of Sichuan, there are open-pit mines hundreds of years ago, and local people call bentonite as soil powder). Is really widely used but has a history of only a hundred years. The earliest discovery in the united states was that in ancient strata in wyoming, clay, which is yellow-green in color, expanded to a paste upon addition of water, and later, all clays of this nature were referred to collectively as bentonites. The main mineral component of bentonite is montmorillonite with content of 85-90%, and some properties of bentonite are determined by montmorillonite. Montmorillonite can be in various colors such as yellow-green, yellow-white, gray, white, and the like. Can be in compact block shape or loose soil shape, has smooth feeling when rubbed with fingers, expands several times to 20-30 times after adding water into small block, and is in suspension state in water and pasty state when water is little. The properties of montmorillonite are related to its chemical composition and internal structure.

To when carrying out the blowing through the storage tank to bentonite among the prior art, can produce a large amount of dusts, not only cause the pollution to the environment to it leads to causing harm to the health to lead to personnel's mistake on every side to inhale the dust easily.

Disclosure of Invention

The invention aims to provide a bentonite storage tank discharging and dust collecting system, which effectively solves the technical problems that a large amount of dust is generated during discharging of bentonite in the prior art to pollute the environment, and surrounding personnel inhale the dust by mistake to cause harm to the body.

The embodiment of the invention provides a bentonite storage tank discharging and dust collecting system, which comprises a storage tank, a supporting assembly, a conveying assembly, a feeding assembly, a stirring assembly, an ash discharging assembly, a recycling assembly and a discharging assembly, wherein the supporting assembly is arranged on the periphery of the storage tank and is connected with the storage tank, the conveying assembly is arranged beside the supporting assembly and is connected with the supporting assembly, the feeding assembly is arranged on one side of the supporting assembly and is positioned above the conveying assembly, the stirring assembly is arranged in the storage tank, the ash discharging assembly is arranged at the top end of the storage tank and is positioned above the stirring assembly, the recycling assembly is arranged beside the storage tank and is communicated with the ash discharging assembly, and the discharging assembly is arranged in the storage tank, and the discharging component is positioned below the stirring component.

Further, arrange grey subassembly including supporting the disc, holding post, support holder, first motor, first roller and flabellum, it has two to support the disc, two it is the symmetry respectively and sets up in the top of holding vessel, and two it is interconnected with the holding vessel to support the disc, it sets up two to hold the post support the centre of disc, and it is connected with two to hold the post support the disc, support holder sets up the inside that holds the post, first motor sets up in holding the post, and first motor and support holder fixed connection, first roller is located two the centre of support the disc, and first roller is connected with the output of first motor, the flabellum has a plurality of, a plurality of the flabellum sets up respectively on first roller.

Further, retrieve the subassembly and include dust pipeline, base, bear urceolus, lug, bear inner tube, cover, handle, fixed block and connecting block, dust pipeline sets up the one side at the holding vessel, the base sets up the side at supporting component, bear the urceolus setting on the base, the lug sets up the one side of bearing the urceolus, and the lug is connected with dust pipeline, bear the inner tube setting in the inside of bearing the urceolus, and it is mutually linked together with dust pipeline to bear the inner tube, the cover is established on the top of bearing the urceolus, the handle sets up on the cover, the fixed block has two, two the fixed block is the symmetry respectively and sets up and is bearing the urceolus both sides, the connecting block sets up on the cover, and the cover is connected with the fixed block.

Further, the stirring subassembly includes supporting baseplate, rotating electrical machines, loading board, churn, second roller and stirring leaf, the supporting baseplate sets up the one side at the holding vessel, the rotating electrical machines sets up the top at the supporting baseplate, the loading board sets up in the holding vessel, and be equipped with a round hole on the loading board, the churn sets up on the loading board, the second roller runs through the inside that sets up at the churn, and the second roller is connected with rotating electrical machines's output, the stirring leaf has a plurality of, a plurality of the stirring leaf sets gradually on the second roller respectively.

Further, ejection of compact subassembly includes carrier block, second motor, third roller, ARC baffle, discharging channel and picture peg, the carrier block sets up the below at the supporting baseplate, the second motor sets up the lower extreme at the carrier block, the third roller sets up the top at the carrier block, and the output of third roller and second motor is connected mutually, ARC baffle sets up the top at the carrier block and corresponds with the round hole on the loading board, ARC baffle is connected with the third roller, discharging channel is located the below of rotating electrical machines, and discharging channel one end corresponds with the round hole on the loading board, the picture peg is inserted and is established in discharging channel.

Furthermore, the supporting component comprises a plurality of supporting rods and a plurality of supporting blocks, the supporting rods are respectively arranged around the storage tank, and the supporting blocks are respectively symmetrically arranged on one side of the storage tank.

Further, the pan feeding subassembly includes support column, load-bearing platform, mount and V-arrangement pan feeding box, the support column has a plurality of, a plurality of the support column is the symmetry respectively and sets up the side at the holding vessel, load-bearing platform sets up at a plurality of the top of support column, the mount has two, two the mount all is the symmetry and sets up on load-bearing platform, V-arrangement pan feeding box sets up two in the middle of the mount.

Further, conveying assembly is including bearing frame, fan and bentonite pipeline, bear the side that the frame set up at the support column, the fan sets up on the carrier top, bentonite pipeline sets up load-bearing platform's below.

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

firstly, when the bentonite dust collector is used, an operator pours bentonite into the feeding assembly to enable the bentonite to fall into the conveying assembly along the interior of the feeding assembly, then the conveying assembly conveys the bentonite onto the stirring assembly, then the supporting assembly provides a stable working environment for the conveying assembly during conveying, then the stirring assembly stirs the bentonite to enable dust on the bentonite to float to the dust discharging assembly, then the dust discharging assembly is started, the dust discharging assembly rotates to enable the dust to move into the recycling assembly along the dust discharging assembly, the dust is carried and recycled through the dust discharging assembly, therefore, the dust cannot be exposed out of the storage tank to pollute the surrounding environment, and the harm to the body due to the fact that the operator inhales the dust by mistake is caused, and then the discharging assembly is started to rotate to enable the stirred bentonite to follow the direction of the discharging assembly, the material is discharged from the storage tank, so that the technical problem that in the prior art, a large amount of dust is generated during the material discharging of bentonite to pollute the environment and cause harm to the body due to the fact that surrounding personnel inhale the dust by mistake is solved.

Secondly, the dust collecting device is provided with the recycling assembly, when the dust collecting device is used, dust on bentonite is moved into the dust conveying pipeline through the dust discharging assembly, the dust is moved into the bearing inner cylinder through the dust conveying pipeline, the bearing inner cylinder is used for bearing the dust, the dust is enabled to be deposited in the bearing inner cylinder, the dust on the bentonite is prevented from being exposed outside the storage tank and polluting the environment, surrounding personnel can mistakenly suck the dust to hurt the body, the bearing inner cylinder can load the dust for a long time, the connecting block can be moved by an operator, the cylinder cover is opened, the bearing inner cylinder is taken out by the operator to process the dust, the bearing inner cylinder is cleaned, and the service life of the bearing inner cylinder is prolonged.

Thirdly, the stirring assembly is arranged in the device, bentonite is conveyed into the stirring cylinder through the conveying assembly when the device is used, the rotating motor is started, the second roller shaft is driven to rotate through the rotating motor, and the stirring blades are driven to rotate by the second roller shaft, so that the bentonite is stirred by the stirring blades, and dust on some fine bentonite and dust on the bentonite can float to the dust discharging assembly, thereby reducing the dust on the bentonite, and preventing a large amount of dust from being generated when the discharging assembly discharges the bentonite.

And fourthly, the discharging assembly is arranged, when the discharging assembly is used, the second motor is started, the third roller shaft is driven to rotate by the second motor, the arc-shaped partition plate is driven to rotate by the third roller shaft, the bentonite falls into the discharging channel, the bentonite is moved out of the storage tank through the discharging channel, and the depth of the inserting plate inserted in the discharging channel can be adjusted up and down by an operator to control the flow rate of discharged bentonite.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic representation of the three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the structure of the conveyor assembly of the present invention;

FIG. 3 is a schematic view of a feeding assembly according to the present invention;

FIG. 4 is a schematic view of a partial structure of a stirring assembly according to the present invention;

FIG. 5 is a sectional view showing the construction of an ash discharge assembly according to the present invention;

FIG. 6 is a schematic view of a partial structure of a stirring assembly according to the present invention;

FIG. 7 is a sectional view of the recovery assembly of the present invention;

FIG. 8 is a schematic structural view of a discharging assembly according to the present invention;

fig. 9 is an enlarged view of a portion a in fig. 8.

Reference numerals: the device comprises a storage tank 1, a supporting component 2, a supporting rod 21, a supporting block 22, a conveying component 3, a bearing frame 31, a fan 32, a bentonite conveying pipeline 33, a feeding component 4, a supporting column 41, a bearing platform 42, a fixing frame 43, a V-shaped feeding box 44, a stirring component 5, a supporting base plate 51, a rotating motor 52, a bearing plate 53, a round hole 531, a stirring cylinder 54, a second roller shaft 55, a stirring blade 56, an ash discharging component 6, a supporting disc 61, a containing column 62, a supporting bracket 63, a first motor 64, a first roller shaft 65, a fan blade 66, a recycling component 7, a dust conveying pipeline 71, a base 72, a bearing outer cylinder 73, a bump 74, a bearing inner cylinder 75, a cylinder cover 76, a handle 77, a fixing block 78, a connecting block 79, a discharging component 8, a bearing block 81, a second motor 82, a third roller 83, an arc-shaped partition plate 84, a.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

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.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 9, an embodiment of the present invention provides a bentonite storage tank emptying dust collecting system, which includes a storage tank 1, a support assembly 2, a conveying assembly 3, a feeding assembly 4, a stirring assembly 5, an ash discharging assembly 6, a recycling assembly 7, and a discharging assembly 8, wherein the support assembly 2 is disposed around the storage tank 1, the support assembly 2 is connected to the storage tank 1, the conveying assembly 3 is disposed beside the support assembly 2, the conveying assembly 3 is connected to the support assembly 2, the feeding assembly 4 is disposed on one side of the support assembly 2, the feeding assembly 4 is disposed above the conveying assembly 3, the stirring assembly 5 is disposed inside the storage tank 1, the ash discharging assembly 6 is disposed at a top end of the storage tank 1, the ash discharging assembly 6 is disposed above the stirring assembly 5, the recycling assembly 7 is disposed beside the storage tank 1, the recycling component 7 is communicated with the ash discharging component 6, the discharging component 8 is arranged inside the storage tank 1, the discharging component 8 is positioned below the stirring component 5, bentonite is poured into the feeding component 4 by an operator during use, the bentonite falls into the conveying component 3 along the inside of the feeding component 4, the bentonite is conveyed onto the stirring component 5 by the conveying component 3, a stable working environment is provided for the conveying component 3 during conveying by the supporting component 2, the bentonite is stirred by the stirring component 5, dust on the bentonite can float to the ash discharging component 6, the ash discharging component 6 is started, the dust can move into the recycling component 7 along the ash discharging component 6 by rotating the ash discharging component 6, the dust is carried and recycled by the ash discharging component 6, and therefore the dust is not exposed outside the storage tank 1, cause the pollution to the surrounding environment, lead to personnel's mistake to inhale the dust and cause harm to the health, restart ejection of compact subassembly 8 rotates, make with the bentonite that stirs well along ejection of compact subassembly 8's direction, fall to holding vessel 1 and accomplish the blowing outward to can produce a large amount of dusts and cause the pollution to the environment when having solved among the prior art to the bentonite blowing, lead to personnel's mistake on every side to inhale the dust easily and cause harm to the health.

Preferably, the dust discharging assembly 6 includes two supporting disks 61, two supporting disks 61 symmetrically disposed above the storage tank 1, two supporting disks 61 connected to the two supporting disks 61, two supporting brackets 63 disposed inside the supporting disks 62, a first motor 64 disposed inside the supporting columns 62, the first motor 64 fixedly connected to the supporting brackets 63, a plurality of fan blades 66 disposed on the first supporting disks 65, during the use, the first motor 64 is started by an operator, the first roller shaft 65 is driven to rotate through the first motor 64, the fan blades 66 are driven to rotate by the first roller shaft 65, the fan blades 66 are enabled to rotate, dust on bentonite is stirred and moved to the recovery assembly 7, the first motor 64 is fixedly supported through the supporting bracket 63, and a stable working environment is provided for the first motor 64.

Preferably, the recycling assembly 7 includes a dust conveying pipe 71, a base 72, a bearing outer cylinder 73, a protrusion 74, a bearing inner cylinder 75, a cylinder cover 76, a handle 77, a fixing block 78 and a connecting block 79, the dust conveying pipe 71 is disposed at one side of the storage tank 1, the base 72 is disposed at the side of the supporting assembly 2, the bearing outer cylinder 73 is disposed on the base 72, the protrusion 74 is disposed at one side of the bearing outer cylinder 73, and the protrusion 74 is connected with the dust conveying pipe 71, the bearing inner cylinder 75 is disposed inside the bearing outer cylinder 73, and the bearing inner cylinder 75 and the dust conveying pipe 71 are communicated with each other, the cylinder cover 76 is disposed at the top end of the bearing outer cylinder 73, the handle 77 is disposed on the cylinder cover 76, two fixing blocks 78 are disposed symmetrically at two sides of the bearing outer cylinder 73, respectively, the connecting block 79 is disposed on the cylinder cover 76, and the cylinder cover 76 is connected with the fixed block 78, when in use, the dust on the bentonite is moved into the dust conveying pipeline 71 through the dust discharging assembly 6, the dust is moved into the bearing inner cylinder 75 through the dust conveying pipeline 71, the dust is borne through the bearing inner cylinder 75, the dust is precipitated in the bearing inner cylinder 75, the dust on the bentonite is prevented from being exposed outside the storage tank 1 and polluting the environment, surrounding personnel can mistakenly suck the dust to hurt the body, then the dust is loaded for a long time through the bearing inner cylinder 75, the connecting block 79 can be moved by an operator, the cylinder cover 76 is opened, the bearing inner cylinder 75 is taken out by the operator, the dust is treated, the bearing inner cylinder 75 is cleaned, and the service life of the bearing inner cylinder 75 is prolonged.

Preferably, the stirring assembly 5 includes a supporting base plate 51, a rotating motor 52, a bearing plate 53, a stirring cylinder 54, a second roller 55 and a stirring blade 56, the supporting base plate 51 is disposed on one side of the storage tank 1, the rotating motor 52 is disposed on the top end of the supporting base plate 51, the bearing plate 53 is disposed in the storage tank 1, a round hole 531 is disposed on the bearing plate 53, the stirring cylinder 54 is disposed on the bearing plate 53, the second roller 55 is disposed inside the stirring cylinder 54 in a penetrating manner, the second roller 55 is connected to the output end of the rotating motor 52, the stirring blade 56 has a plurality of stirring blades 56, the plurality of stirring blades 56 are sequentially disposed on the second roller 55 respectively, in use, bentonite is conveyed into the stirring cylinder 54 through the conveying assembly 3, the rotating motor 52 is started again, the second roller 55 is driven to rotate by the rotating motor 52, the stirring blade 56 is driven by the second roll shaft 55 to rotate, so that the stirring blade 56 stirs the bentonite, and dust on some fine bentonite and bentonite can float to the dust discharging component 6, thereby reducing the dust on the bentonite, and preventing the discharging component 8 from generating a large amount of dust when the bentonite is discharged.

Preferably, the discharging assembly 8 includes a bearing block 81, a second motor 82, a third roller shaft 83, an arc-shaped partition plate 84, a discharging channel 85 and an inserting plate 86, the bearing block 81 is disposed below the supporting base plate 51, the second motor 82 is disposed at the lower end of the bearing block 81, the third roller shaft 83 is disposed at the top end of the bearing block 81, the third roller shaft 83 is connected to the output end of the second motor 82, the arc-shaped partition plate 84 is disposed above the bearing block 81 and corresponds to the circular hole 531 on the bearing plate 53, the arc-shaped partition plate 84 is connected to the third roller shaft 83, the discharging channel 85 is disposed below the rotating motor 52, one end of the discharging channel 85 corresponds to the circular hole 531 on the bearing plate 53, the inserting plate 86 is inserted into the discharging channel 85, when in use, the second motor 82 is started, the third roller shaft 83 is driven by the second motor 82 to rotate the roller shaft, and the third roller shaft 83 drives the arc-shaped partition plate 84 to rotate, make the bentonite fall to discharging channel 85 in, outside discharging channel 85 removed the bentonite to holding vessel 1, rethread operating personnel can adjust picture peg 86 from top to bottom and insert the depth of establishing at discharging channel 85, the flow size of the ejection of compact of control bentonite.

Preferably, the supporting component 2 includes a supporting rod 21 and a supporting block 22, the supporting rod 21 has a plurality of, and a plurality of the supporting rod 21 is laid around the holding vessel 1 respectively, the supporting block 22 has a plurality of, and a plurality of the supporting block 22 becomes the symmetry respectively and sets up holding vessel 1 one side, supports holding vessel 1 through the supporting rod 21, carries out the fixed stay by the supporting block 22 to the conveying component 3 again, makes the conveying component 3 provide a stable operational environment at the during operation.

Preferably, pan feeding subassembly 4 includes support column 41, load-bearing platform 42, mount 43 and V-arrangement pan feeding box 44, support column 41 has a plurality of, a plurality of support column 41 is the symmetry respectively and sets up the side at holding vessel 1, load-bearing platform 42 sets up at a plurality of the top of support column 41, mount 43 has two, two mount 43 all is the symmetry and sets up on load-bearing platform 42, V-arrangement pan feeding box 44 sets up two in the middle of the mount 43, fixes the centre gripping through mount 43 to V-arrangement pan feeding box 44 during the use, pours bentonite into V-arrangement pan feeding box 44 in by operating personnel again, makes bentonite enter into the inside that magazine 44 fell to conveying subassembly 3 along the V-arrangement.

Preferably, conveying component 3 is including bearing 31, fan 32 and bentonite pipeline 33, bear 31 and set up the side at support column 41, fan 32 sets up on bearing 31 top, bentonite pipeline 33 sets up the below of load-bearing platform 42, starts fan 32 during the use, drives bentonite pipeline 33 through fan 32, and the rethread bentonite pipeline 33 removes the bentonite to holding vessel 1 in, provides a stable operational environment by bearing 31 for fan 32 when the motion again.

The working principle is as follows: when the device is used, the V-shaped feeding box 44 is fixedly clamped through the fixing frame 43, bentonite is poured into the V-shaped feeding box 44 by an operator, the bentonite falls into the conveying component 3 along the V-shaped feeding box 44, the fan 32 is started again, the bentonite conveying pipeline 33 is driven by the fan 32, the bentonite is moved into the stirring tank through the bentonite conveying pipeline 33, the rotating motor 52 is started, the second roller shaft 55 is driven by the rotating motor 52 to rotate, the stirring blade 56 is driven by the second roller shaft 55 to rotate, the stirring blade 56 is used for stirring the bentonite, dust on some small bentonite and dust on the bentonite can float to the dust discharging component 6, so that the dust on the bentonite is reduced, a large amount of dust cannot be generated when the bentonite is discharged by the discharging component 8, the first motor 64 is started by the operator, the first roller shaft 64 is used for driving the first motor 65 to rotate, the first roller 65 drives the fan 66 to rotate, so that the fan 66 rotates to move the dust on the bentonite into the dust conveying pipeline 71, the dust is moved into the bearing inner cylinder 75 through the dust conveying pipeline 71, the bearing inner cylinder 75 bears the dust, the dust is precipitated in the bearing inner cylinder 75, the dust on the bentonite is prevented from being exposed outside the storage tank 1 to pollute the environment and cause damage to the body due to the fact that surrounding personnel inhale the dust by mistake, the bearing inner cylinder 75 loads the dust for a long time, an operator can move the connecting block 79, open the cylinder cover 76, take out the bearing inner cylinder 75 through the operator, process the dust, clean the bearing inner cylinder 75, prolong the service life of the bearing inner cylinder 75, start the second motor 82, drive the third roller 83 to rotate through the second motor 82, and drive the arc-shaped partition plate 84 to rotate through the third roller 83, make the bentonite fall to discharging channel 85 in, remove the bentonite outside holding vessel 1 through discharging channel 85, rethread operating personnel can adjust picture peg 86 from top to bottom and insert the depth of establishing at discharging channel 85, control the flow size of the bentonite ejection of compact, accomplish the blowing to the bentonite.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. The bentonite storage tank discharging and dust collecting system is characterized by comprising a storage tank (1), a supporting component (2), a conveying component (3), a feeding component (4), a stirring component (5), an ash discharging component (6), a recycling component (7) and a discharging component (8), wherein the supporting component (2) is arranged around the storage tank (1), the supporting component (2) is connected with the storage tank (1), the conveying component (3) is arranged beside the supporting component (2), the conveying component (3) is connected with the supporting component (2), the feeding component (4) is arranged on one side of the supporting component (2), the feeding component (4) is positioned above the conveying component (3), the stirring component (5) is arranged inside the storage tank (1), the ash discharging component (6) is arranged at the top end of the storage tank (1), and arrange grey subassembly (6) and be located the top of stirring subassembly (5), retrieve subassembly (7) and set up the side at holding vessel (1), and retrieve subassembly (7) and arrange grey subassembly (6) intercommunication each other, ejection of compact subassembly (8) set up in the inside of holding vessel (1), and ejection of compact subassembly (8) are located the below of stirring subassembly (5).

2. The bentonite storage tank emptying and dust collecting system according to claim 1, wherein the ash discharge assembly (6) comprises two supporting disks (61), two supporting brackets (63), a first motor (64), a first roller shaft (65) and fan blades (66), the two supporting disks (61) are respectively and symmetrically arranged above the storage tank (1), the two supporting disks (61) are connected with the storage tank (1), the accommodating column (62) is arranged between the two supporting disks (61), the accommodating column (62) is connected with the two supporting disks (61), the supporting brackets (63) are arranged inside the accommodating column (62), the first motor (64) is arranged inside the accommodating column (62), and the first motor (64) is fixedly connected with the supporting brackets (63), the first roller shafts (65) are located between the two supporting disks (61), the first roller shafts (65) are connected with the output end of the first motor (64), the fan blades (66) are provided with a plurality of blades, and the fan blades (66) are respectively arranged on the first roller shafts (65).

3. The bentonite storage tank emptying and dust collecting system as claimed in claim 1, wherein the recycling component (7) comprises a dust conveying pipeline (71), a base (72), a bearing outer cylinder (73), a bump (74), a bearing inner cylinder (75), a cylinder cover (76), a handle (77), a fixing block (78) and a connecting block (79), the dust conveying pipeline (71) is arranged at one side of the storage tank (1), the base (72) is arranged at the side of the supporting component (2), the bearing outer cylinder (73) is arranged on the base (72), the bump (74) is arranged at one side of the bearing outer cylinder (73), the bump (74) is connected with the dust conveying pipeline (71), the bearing inner cylinder (75) is arranged inside the bearing outer cylinder (73), and the bearing inner cylinder (75) is communicated with the dust conveying pipeline (71), barrel head (76) are established on the top of bearing urceolus (73), handle (77) set up on barrel head (76), fixed block (78) have two, two fixed block (78) are the symmetry respectively and set up in bearing urceolus (73) both sides, connecting block (79) set up on barrel head (76), and barrel head (76) are connected with fixed block (78).

4. The bentonite storage tank emptying and dust collecting system of claim 1, wherein, the stirring component (5) comprises a supporting bottom plate (51), a rotating motor (52), a bearing plate (53), a stirring cylinder (54), a second roller shaft (55) and a stirring blade (56), the supporting bottom plate (51) is arranged at one side of the storage tank (1), the rotating motor (52) is arranged at the top end of the supporting bottom plate (51), the bearing plate (53) is arranged in the storage tank (1), and a round hole (531) is arranged on the bearing plate (53), the mixing drum (54) is arranged on the bearing plate (53), the second roller shaft (55) is arranged in the mixing drum (54) in a penetrating way, and the second roller shaft (55) is connected with the output end of the rotating motor (52), the stirring blades (56) are provided with a plurality of stirring blades (56), and the stirring blades (56) are respectively and sequentially arranged on the second roll shaft (55).

5. The bentonite storage tank emptying and dust collecting system according to claim 4, wherein the discharging component (8) comprises a bearing block (81), a second motor (82), a third roller shaft (83), an arc-shaped partition plate (84), a discharging channel (85) and an inserting plate (86), the bearing block (81) is arranged below the supporting base plate (51), the second motor (82) is arranged at the lower end of the bearing block (81), the third roller shaft (83) is arranged at the top end of the bearing block (81), the third roller shaft (83) is connected with the output end of the second motor (82), the arc-shaped partition plate (84) is arranged above the bearing block (81) and corresponds to the round hole (531) on the bearing plate (53), the arc-shaped partition plate (84) is connected with the third roller shaft (83), the discharging channel (85) is positioned below the rotating motor (52), and one end of the discharging channel (85) corresponds to a round hole (531) on the bearing plate (53), and the inserting plate (86) is inserted in the discharging channel (85).

6. The bentonite storage tank emptying and dust collecting system according to claim 1, wherein the support assembly (2) comprises a plurality of support rods (21) and a plurality of support blocks (22), the plurality of support rods (21) are respectively arranged around the storage tank (1), the plurality of support blocks (22) are respectively arranged on one side of the storage tank (1) in a symmetrical manner.

7. The bentonite storage tank emptying and dust collecting system according to claim 1, wherein the feeding assembly (4) comprises a plurality of support columns (41), a bearing platform (42), two fixing frames (43) and a V-shaped feeding box (44), the support columns (41) are respectively symmetrically arranged at the side of the storage tank (1), the bearing platform (42) is arranged at the top end of the support columns (41), the two fixing frames (43) are symmetrically arranged on the bearing platform (42), and the V-shaped feeding box (44) is arranged between the two fixing frames (43).

8. The bentonite storage tank emptying and dust collecting system according to claim 7, wherein the conveying assembly (3) comprises a bearing frame (31), a fan (32) and a bentonite conveying pipeline (33), the bearing frame (31) is arranged beside the supporting column (41), the fan (32) is arranged on the top end of the bearing frame (31), and the bentonite conveying pipeline (33) is arranged below the bearing platform (42).