CN114632439A - Automatic material mixing equipment is used in production of mud active carbon - Google Patents

Abstract

The invention discloses automatic mixing equipment for producing sludge activated carbon, which belongs to the technical field of mixing equipment and comprises a mixing kettle, wherein a discharge valve pipe is arranged at the bottom of the mixing kettle, a kettle cover is fixedly arranged at the top of the mixing kettle, and a driving mechanism is fixedly arranged at the top of the kettle cover. According to the invention, the stirring main shaft can drive the stirring shaft shells on two sides to rotate, the stirring shaft shells can drive the driven gear to rotate through meshing with the gear rings in the outer-side mixing kettle when rotating, the conveying auger can drive the activated carbon at the opening at one side of the stirring shaft shell to be conveyed into the inner side of the stirring shaft shell through the spiral conveying effect when rotating, and the activated carbon can be moved out through the material distribution groove after entering the inner side of the stirring shaft shell, so that the material which is not completely stirred at the edge position of the inner cavity of the mixing kettle can be conveyed to the stirring axis position through the conveying auger, the mixing efficiency of the activated carbon and the added powder is improved, and the processing requirements are met.

Description

Automatic material mixing equipment is used in production of mud active carbon

Technical Field

The invention belongs to the technical field of mixing equipment, and particularly relates to automatic mixing equipment for producing sludge activated carbon.

Background

Activated carbon is an efficient and energy-saving absorbent for absorbing dust and removing harmful substances, which is generally used for absorbing various pigments, harmful gases, impurities, dust, and the like, and after the activated carbon is carbonized, activated carbon particles and powder materials (such as calcium carbonate powder, calcium oxide powder, calcium hydroxide powder, ceramic powder, and the like) are mostly mixed in a stirring manner, a vibration manner, and the like, so as to prepare an activated carbon preparation.

When the existing activated carbon is processed, a mixing device is needed to fully mix powder and the activated carbon to realize the preparation of the activated carbon preparation, and the preparation method is disclosed in Chinese patent literature: CN104624096B discloses a powder mixing arrangement, belongs to material mixing equipment technical field, including frame, outer bucket, interior bucket, liquid injection device, outer bucket drive arrangement and interior bucket drive arrangement. The bottom of the frame is provided with a ground foot hole, the upper part of the frame is provided with a supporting seat, the outer barrel comprises a cylindrical outer barrel body and an outer barrel upper cover, two trunnions are symmetrically arranged on two sides of the middle part of the outer barrel body, the trunnions are arranged on the supporting seat of the frame, the outer barrel can swing relative to the frame, the inner barrel can be placed in the outer barrel and comprises a cylindrical inner barrel body and an inner barrel upper cover, an inner barrel upper cover locking device is arranged between the inner barrel body and the inner barrel upper cover so as to open or lock the inner barrel upper cover, the bottom of the inner barrel body is provided with a spline groove, the bottom of the inner barrel body is also provided with a liquid jet hole, and the liquid jet device atomizes liquid materials and injects the atomized liquid materials into the inner barrel through the liquid jet hole. The invention can fully mix liquid materials and solid materials without generating agglomeration, but in practical use, because the activated carbon is easy to agglomerate during stirring, the mixing effect of the edge position and the axis position of the materials is different during stirring, the materials need to be repeatedly mixed, the stirring and mixing time is increased, the mixing processing efficiency is influenced, and adverse effects are brought.

Disclosure of Invention

The invention aims to: in order to solve the easy emergence of active carbon and reunite when the stirring, the mixed effect that leads to material border position and axle center position when stirring differs, need the compounding repeatedly, increased the problem of stirring compounding time, and the automatic compounding equipment is used in production of mud active carbon who provides.

In order to achieve the purpose, the invention adopts the following technical scheme:

an automatic material mixing device for producing sludge activated carbon comprises a material mixing kettle, wherein a kettle cover is fixedly mounted at the top of the material mixing kettle, a driving mechanism is fixedly mounted at the top of the kettle cover, one side of the driving mechanism is in transmission connection with a stirring main shaft, the stirring main shaft is rotatably connected to the top of the kettle cover through a bearing, the outer side wall of the stirring main shaft is in transmission connection with a plurality of stirring mechanisms, a feeding processing mechanism is fixedly mounted at one side of the top of the kettle cover, a feeding mechanism is fixedly mounted at the outer side of the top of the stirring main shaft, and the inner cavity of the feeding mechanism is communicated with a feeding cavity formed in the stirring main shaft;

rabbling mechanism is including setting firmly the outside axle bed at the stirring main shaft, the axle bed both sides all are rotated through the bearing and are connected with the stirring axle shell, stirring main shaft outer wall one side is rotated through pivot and bearing and is connected with defeated auger, defeated auger lateral wall rotates through the bearing and connects the one side that is close to the stirring main shaft at stirring axle shell inner chamber, and defeated auger one end extends to the stirring axle shell and keeps away from one side opening part of stirring main shaft, defeated auger one end fixedly connected with driven gear, the driven gear meshing corresponds the ring gear top that the position set firmly in compounding cauldron inner chamber one side, the stirring axle shell is close to the one end of stirring main shaft and all runs through in the middle part outside and has seted up the branch silo.

As a further description of the above technical solution:

the utility model discloses a mixing kettle, including stirring main shaft, stirring spindle shell, stirring spindle, stirring shaft shell, fixed ring shell is close to the solid fixed ring of lateral wall fixedly connected with of stirring main shaft one end, fixed ring shell lateral wall encircles a plurality of disturbance boards of equidistance fixedly connected with, stirring main shaft lateral wall cover is equipped with the support ring corresponding with the axle bed, support ring outer wall both sides all correspond the position in material mixing kettle inside wall both sides through body of rod fixed connection, support ring bottom encircles a plurality of fixed blocks of fixedly connected with.

As a further description of the above technical solution:

actuating mechanism includes the motor, motor lateral wall fixedly connected with protective housing, protective housing fixed mounting is at the kettle cover top, motor output shaft fixedly connected with action wheel, the action wheel bottom side is rotated through pivot and bearing and is connected at the kettle cover top, the action wheel lateral wall is connected with from the driving wheel through transmission belt, from driving wheel fixed mounting outside the stirring main shaft, the spacing lid of stirring main shaft top fixedly connected with.

As a further description of the above technical solution:

the feeding processing mechanism comprises a feeding main pipe, the feeding main pipe is communicated with the top of the kettle cover, a feeding cover is fixedly arranged at the top of the feeding main pipe, one side of the inner cavity of the feeding main pipe is fixedly connected with a crushing seat, one side of the crushing seat is provided with a plurality of crushing grooves, a sliding rod is connected to one side of the inner cavity of the feeding main pipe, which corresponds to the crushing seat, in a sliding manner, one end of the sliding rod is fixedly connected with an insertion piece, one side of the insert is provided with an insert part corresponding to the crushing groove, the insert part of the insert is inserted and connected in the crushing groove at one side of the crushing seat, the other end of the slide bar extends to the outer side of the feeding main pipe and is fixedly connected with an abutting block, a spring is sleeved on the outer side wall of the slide bar, spring one end and butt piece one side fixed connection, the spring other end and pan feeding house steward lateral wall one side fixed connection, stirring main shaft lateral wall fixedly connected with is used for rotating the extrusion cam who extrudes the butt piece.

As a further description of the above technical solution:

the cross section of the feeding cover is conical, and one side of the top of the feeding cover is designed to be closed.

As a further description of the above technical solution:

reinforced mechanism is including adding the cauldron, it is in the kettle cover bottom side to add material cauldron fixed connection, add the interior sleeve pipe of material cauldron inner chamber fixedly connected with, interior sleeve pipe cover is established outside the stirring main shaft, interior sleeve pipe lateral wall encircles the equidistance and has seted up a plurality of feed tanks, the stirring main shaft inboard is equipped with the feeding chamber, and the chamber wall in stirring main shaft feeding chamber encircles with the corresponding position of feed tank and has seted up a plurality of intercommunication grooves, the stirring main shaft lateral wall is equipped with a plurality of pan feeding nozzles, the pan feeding nozzle is linked together with the feeding chamber of stirring main shaft.

As a further description of the above technical solution:

the kettle cover top is communicated with a corresponding position of the feeding kettle top through a feeding branch pipe, and the top of the feeding branch pipe is provided with a conical plug.

As a further description of the above technical solution:

the stirring main shaft outer side wall fixedly connected with gangbar, the gangbar bottom both sides all are through dead lever fixedly connected with scraper blade, the scraper blade laminates with reinforced cauldron inner chamber bottom one side mutually, the scraper blade is flexible plastic board.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. in the invention, when activated carbon is mixed and stirred, the activated carbon treated by the feeding treatment mechanism can enter a mixing kettle, when corresponding powder is added, a motor of the driving mechanism works to drive a stirring main shaft to rotate, the stirring main shaft can drive stirring shaft shells at two sides to rotate, the stirring shaft shells can drive an inner material conveying auger and a driven gear at the tail end to move, the driven gear rotates by being meshed with a gear ring in an outer mixing kettle when moving, the driven gear can drive the material conveying auger to rotate, the material conveying auger rotates to convey the activated carbon at an opening at one side of the stirring shaft shell to the inner side of the stirring shaft shell through spiral material conveying action, and the activated carbon can be moved out through a material distribution groove after entering the inner side of the stirring shaft shell, so that the activated carbon material which is positioned at the edge of an inner cavity of the mixing kettle and is not completely stirred can be conveyed to the stirring axis position through the material conveying auger, the mixing efficiency of the activated carbon and the added powder is improved, and the processing and treating requirements are met.

2. According to the invention, when the stirring shaft shell is driven to rotate by the shaft seat and the stirring main shaft, the disturbance plate on the outer wall of the stirring shaft shell can be in contact with the fixed block at the top during rotation, the disturbance plate can drive the stirring shaft shell to rotate on one side of the shaft seat through the bearing due to contact and butt with the fixed block, and the rotating stirring shaft shell can adjust the discharging direction of the material distribution groove, so that overflowed activated carbon can be dispersed to different depth positions at the shaft center, the mixing effect of the activated carbon and agglomerated powder at the stirring shaft center is further improved, and the processing and mixing capacity is improved.

3. According to the invention, after the powder falls into the bottom feeding kettle, the powder can be placed into the feeding cavity in the stirring main shaft through the communication with the feeding groove on one side of the inner sleeve, the stirring main shaft can synchronously drive the linkage rod and the fixed rod to drive the bottom scraper blade to rotate, the powder can be quickly scraped into the feeding groove through the rotation of the scraper blade, after the powder enters the feeding cavity of the stirring main shaft, under the action of the centrifugal force generated by the rotation of the stirring main shaft, the added powder can be quickly sprayed out through the feeding nozzles outside the stirring main shaft, the powder can be quickly sprayed out through the feeding nozzles at different depths during stirring, and the powder is continuously and fully mixed with newly moved-in active carbon, so that the mixing efficiency and the dispersion effect are better, the agglomeration phenomenon during powder adding is avoided, and the mixing effect is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of an automatic mixing device for producing sludge activated carbon, which is provided by the invention;

FIG. 2 is a schematic view of an assembly structure of a driving mechanism of an automatic mixing device for producing sludge activated carbon, which is provided by the invention;

FIG. 3 is an enlarged schematic structural view of part A of an automatic mixing device for producing sludge activated carbon, which is provided by the invention;

FIG. 4 is an exploded view of a feeding processing mechanism of an automatic mixing device for producing sludge activated carbon according to the present invention;

FIG. 5 is a schematic diagram of a half-section structure of an automatic mixing device for producing sludge activated carbon, which is provided by the invention;

FIG. 6 is a schematic structural view of a stirring shaft housing of an automatic mixing device for producing sludge activated carbon, which is provided by the invention;

FIG. 7 is a schematic view of an explosive splitting structure of an automatic mixing device for producing sludge activated carbon according to the present invention;

FIG. 8 is an enlarged schematic structural view of a part B of the automatic mixing equipment for producing sludge activated carbon, which is provided by the invention.

Illustration of the drawings:

1. a mixing kettle; 2. a feeding processing mechanism; 201. a feeding main pipe; 202. feeding a material cover; 203. a crushing seat; 204. an insert; 205. a slide bar; 206. a spring; 3. a drive mechanism; 301. a protective shell; 302. a motor; 303. a transmission belt; 304. a driving wheel; 305. a driven wheel; 306. a limiting cover; 4. a stirring mechanism; 401. a stirring shaft housing; 402. a material conveying auger; 403. a driven gear; 404. a gear ring; 405. a fixing ring; 406. a disturbance plate; 407. a support ring; 408. a fixed block; 409. a shaft seat; 410. a material distributing groove; 411. a rod body; 5. a feeding nozzle; 6. a feeding mechanism; 601. a feeding kettle; 602. a linkage rod; 603. fixing the rod; 604. a squeegee; 605. an inner sleeve; 606. a feed chute; 7. a stirring main shaft; 8. an extrusion cam; 9. a kettle cover; 10. a charging branch pipe.

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 a technical solution: an automatic mixing device for producing sludge activated carbon comprises a mixing kettle 1, wherein a discharge valve pipe is arranged at the bottom of the mixing kettle 1, a kettle cover 9 is fixedly mounted at the top of the mixing kettle 1, a driving mechanism 3 is fixedly mounted at the top of the kettle cover 9, one side of the driving mechanism 3 is in transmission connection with a stirring main shaft 7, the stirring main shaft 7 is rotatably connected to the top of the kettle cover 9 through a bearing, the outer side wall of the stirring main shaft 7 is in transmission connection with a plurality of stirring mechanisms 4, a feeding processing mechanism 2 is fixedly mounted at one side of the top of the kettle cover 9, a feeding mechanism 6 is fixedly mounted at the outer side of the top of the stirring main shaft 7, and the inner cavity of the feeding mechanism 6 is communicated with a feeding cavity formed in the stirring main shaft 7;

rabbling mechanism 4 is including setting firmly the outside axle bed 409 at main mixing shaft 7, axle bed 409 both sides all are rotated through the bearing and are connected with stirring axle housing 401, 7 outer wall one side of main mixing shaft is rotated through pivot and bearing and is connected with defeated auger 402, defeated auger 402 lateral wall rotates through the bearing and connects the one side that is close to main mixing shaft 7 at stirring axle housing 401 inner chamber, and defeated auger 402 one end extends to stirring axle housing 401 and keeps away from one side opening part of main mixing shaft 7, defeated auger 402 one end fixedly connected with driven gear 403, driven gear 403 meshing corresponds the gear ring 404 top that the position set firmly in 1 inner chamber one side of compounding cauldron, stirring axle housing 401 is close to the one end and the middle part outside of main mixing shaft 7 and all runs through and has seted up branch silo 410.

The implementation mode is specifically as follows: when the activated carbon is mixed and stirred, the activated carbon treated by the feeding treatment mechanism 2 can enter the mixing kettle 1, after corresponding powder is added, the motor 302 of the driving mechanism 3 works to drive the stirring main shaft 7 to rotate, the stirring main shaft 7 can drive the stirring shaft shells 401 at two sides to rotate, the stirring shaft shells 401 can drive the inner material conveying auger 402 and the driven gear 403 at the tail end to move, the driven gear 403 rotates by being engaged with the gear ring 404 in the outer mixing kettle 1 when moving, the driven gear 403 rotates to drive the material conveying auger 402 to rotate, the material conveying auger 402 rotates to convey the activated carbon at the opening at one side of the stirring shaft shell 401 to the inner side of the stirring shaft shell 401 through the spiral material conveying effect, and the activated carbon can move out through the material distributing groove 410 after entering the inner side of the stirring shaft shell 401, so that the material which is positioned at the inner cavity of the mixing kettle 1 and is not completely stirred at the edge position can be conveyed to the stirring axis position through the material conveying auger 402, through the gear ring 404 of design, and the quantity setting of gear ring 404 is corresponding with the quantity of stirring axle housing 401, guarantees the rotation effect of defeated material auger 402 after the transmission.

Referring to fig. 6 and 8, a fixing ring 405 is fixedly connected to an outer side wall of the stirring shaft housing 401 near one end of the stirring main shaft 7, a plurality of disturbance plates 406 are fixedly connected to an outer side wall of the fixing ring 405 in an equidistant manner, a support ring 407 corresponding to the shaft seat 409 is sleeved on an outer side wall of the stirring main shaft 7, two sides of an outer wall of the support ring 407 are fixedly connected to corresponding positions on two sides of an inner side wall of the mixing kettle 1 through a rod 411, and a plurality of fixing blocks 408 are fixedly connected to a bottom of the support ring 407 in a surrounding manner.

The implementation mode is specifically as follows: when the stirring shaft shell 401 is driven to rotate through the shaft seat 409 and the stirring main shaft 7, the disturbance plate 406 on the outer wall of the stirring shaft shell 401 can be in contact with the fixing block 408 at the top when rotating, the disturbance plate 406 can drive the stirring shaft shell 401 to rotate on one side of the shaft seat 409 through the contact butt with the fixing block 408, the discharge direction of the distributing groove 410 can be adjusted by the rotating stirring shaft shell 401, so that overflowed activated carbon can be dispersed to different depth positions of the shaft center, the mixing effect of the agglomerated powder on the activated carbon and the stirring shaft center is further improved, the processing mixing capacity is improved, one side of the support ring 407 is fixedly assembled with the inner cavity of the mixing kettle 1 through the rod body 411, and the supporting butt capacity of the support ring 407 and the bottom side fixing block 408 can be improved.

Referring to fig. 2-5, the driving mechanism 3 includes a motor 302, a protective shell 301 is fixedly connected to an outer side wall of the motor 302, the protective shell 301 is fixedly installed at the top of the kettle cover 9, an output shaft of the motor 302 is fixedly connected with a driving wheel 304, a bottom side of the driving wheel 304 is rotatably connected to the top of the kettle cover 9 through a rotating shaft and a bearing, an outer side wall of the driving wheel 304 is in transmission connection with a driven wheel 305 through a transmission belt 303, the driven wheel 305 is fixedly installed outside the stirring main shaft 7, a top end of the stirring main shaft 7 is fixedly connected with a limit cover 306, the feeding processing mechanism 2 includes a feeding main pipe 201, the feeding main pipe 201 is communicated with the top of the kettle cover 9, a feeding cover 202 is fixedly installed at the top of the feeding main pipe 201, a crushing seat 203 is fixedly connected to one side of an inner cavity of the feeding main pipe 201, a plurality of crushing grooves are formed in one side of the crushing seat 203, a slide rod 205 is slidably connected to one side of the inner cavity of the feeding main pipe 201 corresponding to the crushing seat 203, the utility model discloses a crushing device for the feed hopper, including slide bar 205, insert 204, the insert of insert 204 is connected in the broken groove of broken seat 203 one side, the slide bar 205 other end extends to the pan feeding house steward 201 outside and fixedly connected with butt piece, slide bar 205 lateral wall cover is equipped with spring 206, spring 206 one end and butt piece one side fixed connection, the spring 206 other end and pan feeding house steward 201 lateral wall one side fixed connection, stirring main shaft 7 lateral wall fixedly connected with is used for rotating the extrusion cam 8 of extrusion butt piece, pan feeding cover 202 cross sectional shape is the toper, and pan feeding cover 202 top one side is the closed design.

The implementation mode is specifically as follows: the motor 302 is more stable through the work in the protective shell 301, the supporting stability is improved, the output shaft of the motor 302 can drive the driving wheel 304 to rotate when rotating, the driving wheel 304 rotates to drive the transmission belt 303 and the driven wheel 305 to rotate, the driven wheel 305 rotates to drive the stirring main shaft 7 to rotate to drive the stirring mechanism 4 to mix and stir the activated carbon in the mixing kettle 1, the stirring main shaft 7 can drive the externally connected extrusion cam 8 to rotate, the extrusion cam 8 can rotate to be in contact with the abutting block on one side of the feeding main pipe 201, the abutting block is extruded by the extrusion cam 8 to press the spring 206 and simultaneously drive the sliding rod 205 to move towards the inner side of the feeding main pipe 201, the sliding rod 205 moves to drive the tail end insert 204 to be inserted into the crushing groove on one side of the crushing seat 203, so that the insert 204 can be reset by the rotation of the extrusion cam 8 in cooperation with the elastic force of the spring 206 to realize the reciprocating insertion of the insert 204, satisfy and plant the breakage to the active carbon that adds in the pan feeding house steward 201 to can vibrate the breakage to the active carbon that adds in the pan feeding house steward 201, avoid the active carbon to influence mixing efficiency because of the caking that absorbs water, and reciprocating motion's plant 204 and broken seat 203's cooperation can avoid the active carbon to block up in pan feeding house steward 201, improve reinforced treatment effect.

Referring to fig. 3, the feeding mechanism 6 includes a feeding kettle 601, the feeding kettle 601 is fixedly connected to the bottom side of the kettle cover 9, an inner cavity of the feeding kettle 601 is fixedly connected with an inner sleeve 605, the inner sleeve 605 is sleeved outside the stirring spindle 7, a plurality of feeding slots 606 are formed in the outer side wall of the inner sleeve 605 in an equidistant manner, a feeding cavity is formed in the inner side of the stirring spindle 7, a plurality of communicating slots are formed in the cavity wall of the feeding cavity of the stirring spindle 7 and the corresponding positions of the feeding slots 606 in an encircling manner, a plurality of feeding nozzles 5 are formed in the outer side wall of the stirring spindle 7, the feeding nozzles 5 are communicated with the feeding cavity of the stirring spindle 7, the top of the kettle cover 9 is communicated with feeding branch pipes 10 in the corresponding positions of the top of the feeding kettle 601, a conical plug is arranged at the top of the feeding branch pipes 10, a linkage rod 602 is fixedly connected to the outer side wall of the stirring spindle 7, scrapers 604 are fixedly connected to both sides of the bottom of the linkage rod 602 through a fixing rod 603, scraper blade 604 and reinforced cauldron 601 inner chamber bottom one side laminating mutually, scraper blade 604 is flexible plastic board.

The implementation mode is specifically as follows: because the powder is added through the feeding main pipe 201 and is easy to agglomerate, when the powder is added into the mixing kettle 1 through the feeding branch pipe 10, the powder falls into the bottom feeding kettle 601, when the stirring main shaft 7 rotates, the feeding cavity in the stirring main shaft 7 can place the powder through the communication with the feeding groove 606 on one side of the inner sleeve 605, the stirring main shaft 7 can also synchronously drive the linkage rod 602 and the fixed rod 603 to drive the bottom scraper 604 to rotate, the scraper 604 rotates to further scrape the powder into the feeding groove 606, after the powder enters the feeding cavity of the stirring main shaft 7, under the action of the centrifugal force generated by the rotation of the stirring main shaft 7, the added powder can be quickly sprayed out through the feeding nozzles 5 outside the stirring main shaft 7, so that the powder can be quickly sprayed out through the feeding nozzles 5 with different depths during stirring and can be continuously and fully mixed with newly moved activated carbon, compare in adding through pan feeding house steward 201 and fall into the active carbon top, have better mixing efficiency and dispersion effect, the reunion phenomenon when avoiding the powder to add improves the treatment effect.

The working principle is as follows: when in use, when the activated carbon is mixed and stirred, the output shaft of the motor 302 rotates to drive the driving wheel 304 to rotate, the driving wheel 304 rotates to drive the transmission belt 303 and the driven wheel 305 to rotate, the driven wheel 305 rotates to drive the stirring main shaft 7 to rotate, the stirring main shaft 7 drives the stirring mechanism 4 to mix and stir the activated carbon in the mixing kettle 1, when the stirring main shaft 7 rotates, the externally connected extrusion cam 8 is driven to rotate, the extrusion cam 8 rotates to contact with the abutting block on one side of the feeding main pipe 201, the abutting block is extruded by the extrusion cam 8 and pressed by the pressing spring 206 to drive the slide bar 205 to move towards the inner side of the feeding main pipe 201, the slide bar 205 moves to drive the insert 204 at the tail end to be inserted into the crushing groove on one side of the crushing seat 203, the activated carbon added in the feeding main pipe 201 is inserted and crushed to avoid agglomeration, the activated carbon treated by the feeding treatment mechanism 2 enters the mixing kettle 1,

when powder is added into the mixing kettle 1 through the feeding branch pipe 10, the powder falls into the bottom feeding kettle 601, when the stirring main shaft 7 rotates, the powder is placed into a feeding cavity of the stirring main shaft 7 through the feeding groove 606 at one side of the inner sleeve 605, the stirring main shaft 7 synchronously drives the linkage rod 602 and the fixed rod 603 to drive the bottom scraper 604 to rotate, the scraper 604 rotates to further scrape the powder into the feeding groove 606, after the powder enters the feeding cavity of the stirring main shaft 7, the added powder is rapidly ejected through the feeding nozzles 5 at the outer part of the stirring main shaft 7 under the action of the centrifugal force generated by the rotation of the stirring main shaft 7, the powder is rapidly ejected through the feeding nozzles 5 at different depths during stirring, the powder is continuously and fully mixed with newly moved activated carbon, when corresponding powder is added, the motor 302 of the driving mechanism 3 works to drive the stirring main shaft 7 to rotate, and the stirring main shaft 7 rotates to drive the stirring shaft shells 401 at two sides to rotate, the stirring shaft shell 401 rotates to drive the inner material conveying auger 402 and the driven gear 403 at the tail end to move, the driven gear 403 rotates through meshing with the gear ring 404 in the outer mixing kettle 1 when moving, the driven gear 403 rotates to drive the material conveying auger 402 to rotate, the material conveying auger 402 rotates to convey the active carbon at the opening at one side of the stirring shaft shell 401 to the inner side of the stirring shaft shell 401 through the spiral material conveying function, the active carbon enters the inner side of the stirring shaft shell 401 and then is moved out through the distributing groove 410, the material which is not completely stirred at the edge position in the inner cavity of the mixing kettle 1 is conveyed to the stirring shaft center position through the material conveying auger 402, when the stirring shaft shell 401 is driven to rotate through the shaft seat 409 and the stirring main shaft 7, the stirring plate 406 at the outer wall of the stirring shaft shell 401 contacts with the fixed block 408 at the top when rotating, the stirring plate 406 drives the stirring shaft shell 401 to rotate at one side of the shaft seat 409 through the contact and the abutment with the fixed block 408, the rotating stirring shaft shell 401 adjusts the discharging direction of the distributing groove 410.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The automatic material mixing equipment for producing the sludge activated carbon comprises a material mixing kettle (1), wherein a kettle cover (9) is fixedly mounted at the top of the material mixing kettle (1), and is characterized in that a driving mechanism (3) is fixedly mounted at the top of the kettle cover (9), one side of the driving mechanism (3) is in transmission connection with a stirring main shaft (7), the stirring main shaft (7) is rotatably connected to the top of the kettle cover (9) through a bearing, the outer side wall of the stirring main shaft (7) is in transmission connection with a plurality of stirring mechanisms (4), one side of the top of the kettle cover (9) is fixedly provided with a feeding processing mechanism (2), the outer side of the top of the stirring main shaft (7) is fixedly provided with a feeding mechanism (6), and the inner cavity of the feeding mechanism (6) is communicated with a feeding cavity formed in the stirring main shaft (7);

the stirring mechanism (4) comprises a shaft seat (409) fixedly arranged outside the stirring main shaft (7), both sides of the shaft seat (409) are rotatably connected with a stirring shaft shell (401) through bearings, one side of the outer wall of the stirring main shaft (7) is rotatably connected with a material conveying auger (402) through a rotating shaft and a bearing, the outer side wall of the material conveying auger (402) is rotatably connected to one side of the inner cavity of the stirring shaft shell (401) close to the stirring main shaft (7) through a bearing, one end of the material conveying auger (402) extends to an opening at one side of the stirring shaft shell (401) far away from the stirring main shaft (7), one end of the material conveying auger (402) is fixedly connected with a driven gear (403), the driven gear (403) is meshed with the top of a gear ring (404) fixedly arranged at a corresponding position on one side of the inner cavity of the mixing kettle (1), one end of the stirring shaft shell (401) close to the stirring main shaft (7) and the outer side of the middle part of the stirring shaft shell all penetrate through the material distributing groove (410).

2. The automatic material mixing equipment for producing the sludge activated carbon according to claim 1, wherein the outer side wall of the stirring shaft shell (401) close to one end of the stirring main shaft (7) is fixedly connected with a fixing ring (405), the outer side wall of the fixing ring (405) is fixedly connected with a plurality of disturbance plates (406) around the same distance, the outer side wall of the stirring main shaft (7) is sleeved with a support ring (407) corresponding to the shaft seat (409), two sides of the outer wall of the support ring (407) are fixedly connected with corresponding positions on two sides of the inner side wall of the material mixing kettle (1) through a rod body (411), and the bottom of the support ring (407) is fixedly connected with a plurality of fixing blocks (408) around.

3. The automatic material mixing device for sludge activated carbon production according to claim 1, wherein the driving mechanism (3) comprises a motor (302), a protective shell (301) is fixedly connected to the outer side wall of the motor (302), the protective shell (301) is fixedly installed at the top of the kettle cover (9), an output shaft of the motor (302) is fixedly connected with a driving wheel (304), the bottom side of the driving wheel (304) is rotatably connected to the top of the kettle cover (9) through a rotating shaft and a bearing, a driven wheel (305) is connected to the outer side wall of the driving wheel (304) through a transmission belt (303), the driven wheel (305) is fixedly installed outside the stirring main shaft (7), and a limiting cover (306) is fixedly connected to the top end of the stirring main shaft (7).

4. The automatic mixing device for producing the sludge activated carbon according to claim 1, wherein the feeding processing mechanism (2) comprises a feeding main pipe (201), the feeding main pipe (201) is communicated with the top of the kettle cover (9), a feeding cover (202) is fixedly installed at the top of the feeding main pipe (201), a crushing seat (203) is fixedly connected to one side of an inner cavity of the feeding main pipe (201), a plurality of crushing grooves are formed in one side of the crushing seat (203), a sliding rod (205) is slidably connected to one side of the inner cavity of the feeding main pipe (201) corresponding to the crushing seat (203), an insertion part (204) is fixedly connected to one end of the sliding rod (205), an insertion part corresponding to the crushing groove is arranged on one side of the insertion part (204), the insertion part of the insertion part (204) is inserted and connected in the crushing groove on one side of the crushing seat (203), and the other end of the sliding rod (205) extends to the outer side of the feeding main pipe (201) and is fixedly connected with an abutting block, slide bar (205) lateral wall cover is equipped with spring (206), spring (206) one end and butt piece one side fixed connection, spring (206) other end and pan feeding house steward (201) lateral wall one side fixed connection, stirring main shaft (7) lateral wall fixedly connected with is used for rotating extrusion butt piece's extrusion cam (8).

5. The automatic mixing equipment for producing the sludge activated carbon as claimed in claim 4, wherein the cross section of the feeding cover (202) is conical, and one side of the top of the feeding cover (202) is of a closed design.

6. The automatic mixing device for producing the sludge activated carbon according to claim 1, wherein the feeding mechanism (6) comprises a feeding kettle (601), the feeding kettle (601) is fixedly connected to the bottom side of the kettle cover (9), an inner sleeve (605) is fixedly connected to an inner cavity of the feeding kettle (601), the inner sleeve (605) is sleeved outside the stirring main shaft (7), a plurality of feeding grooves (606) are formed in the outer side wall of the inner sleeve (605) in an encircling mode at equal intervals, a feeding cavity is formed in the inner side of the stirring main shaft (7), a plurality of communicating grooves are formed in the wall of the feeding cavity of the stirring main shaft (7) in an encircling mode at positions corresponding to the feeding grooves (606), a plurality of feeding nozzles (5) are formed in the outer side wall of the stirring main shaft (7), and the feeding nozzles (5) are communicated with the feeding cavity of the stirring main shaft (7).

7. The automatic mixing equipment for producing the sludge activated carbon as claimed in claim 6, wherein a feeding branch pipe (10) is communicated with the top of the kettle cover (9) and the corresponding position of the top of the feeding kettle (601), and a conical plug is arranged at the top of the feeding branch pipe (10).

8. The automatic mixing equipment for producing the sludge activated carbon as claimed in claim 6, wherein a linkage rod (602) is fixedly connected to the outer side wall of the stirring main shaft (7), scrapers (604) are fixedly connected to both sides of the bottom of the linkage rod (602) through fixing rods (603), the scrapers (604) are attached to one side of the bottom of the inner cavity of the feeding kettle (601), and the scrapers (604) are flexible plastic plates.

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