CN115869826A - Efficient mixing device for carbon source production and use method thereof - Google Patents

Abstract

The invention discloses an efficient mixing device for carbon source production and a using method thereof. This high-efficient mixing arrangement is used in carbon source production and application method thereof, through being provided with the mixing mechanism on the upper portion of bottom plate, and the cooperation is annotated material mechanism and broken mechanism and is advanced the use, first motor drives the carousel and makes a plurality of churns carry out slow rotation, can carry out the injection of different raw materialss at the removal in-process through the cooperation of arc pinion rack and internal thread gear, use at collocation fluted disc lets a plurality of rotatory and drive the stirring leaf and stir, when making the carbon source mix in production, can annotate the material while stirring, conveniently carry out the taking and the installation of churn through the cooperation of leading wheel with annular track platform after the stirring is accomplished, the time gap of annotating the material and arranging the material has been reduced.

Description

Efficient mixing device for carbon source production and use method thereof

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a high-efficiency mixing device for carbon source production and a using method thereof.

Background

The existing sewage treatment plant firstly utilizes a composite carbon source to provide organic matters for heterotrophic denitrifying bacteria, and then utilizes the heterotrophic denitrifying bacteria to carry out denitrification on sewage, and then the sewage can be discharged into a receiving water body to prevent environmental pollution.

Chinese patent CN216572659U, a novel carbon source mixing arrangement, concretely relates to mixing arrangement technical field, the power distribution box comprises a box body, the box top is provided with two input pipes, two with box top central line symmetric distribution, two input socle portion all runs through the box and extends to inside the box, box top central line department is provided with first motor, first motor output runs through the box and extends to inside the box, first motor output is provided with first axostylus axostyle, first axostylus axostyle both sides all are provided with two mixing mechanism. The utility model discloses a setting that first mixed leaf, connecting rod, second mixed leaf and bearing mutually supported in the mixing mechanism, with current direct be provided with the axostylus axostyle on motor output and drive a plurality of mixing arms and carry out the technique of mixing and compare, the device not only can reach the effect of mixing to mixing efficiency when the carbon source mixes has still obtained obvious promotion.

Although the above-mentioned patent utilizes the motor to drive a plurality of mixing arms and rotates, improve the efficiency of mixing, but still have obvious defect in-service use, if this equipment can only mix by the single when using, discharge again and load after mixing at every turn, then carry out the second batch of mixture, this kind of mode is mixed the degree of consistency height, but can not make the production of carbon source have the continuity, can not annotate liquid during in-process flowing back, and can not drain liquid during the liquid injection, consequently, flowing back and annotating liquid need be gone on alone and lead to having the longer time space between two processes, make production mixing efficiency low, unable high-efficient mixing production, consequently design a can be in succession and high-efficient carbon source mixing arrangement solves this type defect now.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a high-efficiency mixing device for carbon source production and a using method thereof, and solves the problems that the current carbon source mixing device can only carry out mixing once, the time gap between discharging and injecting is long, continuity cannot be generated, and the production efficiency is low.

In order to realize the purpose, the invention is realized by the following technical scheme: the utility model provides a high-efficient mixing arrangement is used in carbon source production, includes the bottom plate, the periphery fixedly connected with support column at bottom plate top, mixing mechanism is installed on the top of support column, mixing mechanism's surface is provided with the notes material mechanism that cooperatees and use, mixing mechanism's lower part is provided with the broken mechanism that cooperatees and use with mixing mechanism.

Preferably, mixing mechanism includes annular platform, and annular platform fixed mounting is on the top of support column, annular platform's top fixed connection has annular rail platform, the translation mouth has been seted up to annular rail platform's front portion, it includes that backup pad and backup pad are provided with a plurality of, a plurality of to annotate material mechanism the backup pad passes through fixing base fixed connection in annular platform's surface, the top fixedly connected with liquid storage cylinder of backup pad, two through support fixedly connected with link between the liquid storage cylinder, the first motor of inboard fixedly connected with of link, the first pivot pole of output shaft through shaft coupling fixedly connected with of first motor, the surface of first pivot pole passes through support fixedly connected with L type frame, and L type frame is provided with a plurality of, a plurality of the periphery fixedly connected with carousel of L type frame, the installing port has been seted up to the periphery at carousel top, and the installing port is the annular and is provided with a plurality of, the linkage groove has been seted up at the top of annular platform inner chamber.

Preferably, the sliding tray has all been seted up to the both sides of installing port inner chamber, the inboard slidable mounting of sliding tray has slip montant, two fixedly connected with places the dish between the bottom of slip montant, place the inboard of dish and placed the churn, the both sides of placing the portion of trying to get to the heart of a matter all are rotated through rotating and are connected with the leading wheel that cooperatees and use with annular rail platform, the rear portion at L type frame inner chamber top is rotated through the bearing spare and is connected with first montant, the front portion at L type frame inner chamber top is rotated through the bearing spare and is connected with the second montant, the equal fixedly connected with belt pulley in surface of first montant and second montant, two connect through belt transmission between the belt pulley, the front portion of L type frame bottom is through fixed block fixedly connected with and the closing cap that the churn cooperatees and use.

Preferably, the bottom of second montant runs through L type frame and closing cap in proper order and extends to the lower part of closing cap, the second montant extends to the one end fixedly connected with of closing cap lower part and the stirring leaf that the churn cooperatees and uses, and the second montant is connected for rotating with L type frame and closing cap, the equal fixedly connected with in both sides of closing cap and the snap ring that the cooperation of slip montant used, the bottom of first montant extends to the inboard in linkage groove, first montant extends to the one end fixedly connected with gear section of thick bamboo of linkage inslot side, the top fixedly connected with arc pinion rack of L type frame, smooth mouth has been seted up at the middle part on arc pinion rack surface, the front side at closing cap top is seted up and is annotated the liquid mouth.

Preferably, the liquid pipe is annotated to the front side of liquid storage barrel inner chamber bottom through seting up opening sliding connection and the screw thread that the closing cap cooperateed and used, and the bottom of screw thread notes liquid pipe runs through the liquid storage barrel and extends to the below of liquid storage barrel, one side of screw thread notes liquid pipe and be located the first chute board of the inside fixedly connected with of liquid storage barrel, one side fixedly connected with of liquid storage barrel inner chamber bottom and the slider post that first chute board cooperateed and used, the inside wall fixedly connected with of liquid storage barrel annotates the isolation section of thick bamboo that liquid pipe cooperateed and used with the screw thread, the surface that the liquid pipe was annotated to the screw thread just is located the lower part threaded connection of liquid storage barrel has the internal thread gear that cooperatees and uses with the ARC toothed plate, annular sliding groove has been seted up at the top of internal thread gear, the inboard slidable mounting of annular sliding groove has the slip post, and the top of slip post and the bottom fixed connection of liquid storage barrel.

Preferably, broken mechanism includes broken case, and broken case passes through fixed block fixed connection in the bottom of annular platform, the bottom of linkage groove inner chamber is through seting up opening fixedly connected with second motor, two output shafts of second motor all pass through shaft coupling fixedly connected with second dwang, upper portion the top fixedly connected with of second dwang and the toothed disc that a gear section of thick bamboo meshed mutually, the equal fixedly connected with second spout plate in both sides of broken incasement chamber, and the inboard slidable mounting of second spout plate has a slide, two fixedly connected with sieve section of thick bamboo between the slide, the upside fixedly connected with of backup pad inner wall and the spacing ring frame that sieve section of thick bamboo cooperateed and uses, the dog-house that cooperatees and uses with sieve section of thick bamboo is seted up on the surface of broken case, the inboard fixedly connected with feeding hopper of dog-house.

Preferably, the bottom of broken case is through seting up the row material section of thick bamboo that opening fixedly connected with and sieve section of thick bamboo matched with and use, the top of bottom plate just is located the lower part fixedly connected with of backup pad and the collection material frame that row material section of thick bamboo matched with and uses, the lower part the bottom of second dwang runs through backup pad and sieve section of thick bamboo in proper order and is connected through the bottom rotation of bearing spare and collection material frame inner chamber, the surface of second dwang just is located the inboard fixedly connected with of sieve section of thick bamboo and the broken leaf that sieve section of thick bamboo matched with and uses, and the second dwang is sliding connection with the sieve section of thick bamboo, the surface of second dwang just is located the inboard fixedly connected with that gathers materials the frame and pushes away the material blade, the surface of second dwang just is located the lower part fixedly connected with of sieve section of thick bamboo and holds the tray, the first arc ball of periphery fixedly connected with at holding tray top, the bottom fixedly connected with of sieve section of thick bamboo cooperates the second arc ball that uses with first arc ball.

Preferably, a discharge opening is formed in the surface of the collecting frame.

The invention also discloses a use method of the high-efficiency mixing device for producing the carbon source, which specifically comprises the following steps:

s1, respectively injecting different types of single carbon source liquid into the four liquid storage cylinders before use, then simultaneously starting a first motor and a second motor, and then performing a mixing process;

s2, when the first motor is started, the first rotating rod drives the rotating disc and the L-shaped frames to rotate, when a certain amount of powdery raw materials are put into the inner side of the mixing drum and then are placed on the inner side of the placing disc, the L-shaped frames are driven to rotate along with the rotating disc, the guide wheel is in contact with the annular rail platform to push the placing disc to ascend under the limit of the sliding vertical rod, the placing disc is butted with the sealing cover, the sliding vertical rod is inserted into the inner side of the clamping ring to limit, then the mixing drum continuously rotates through the placing disc, the front end of the arc-shaped toothed plate is driven to rotate after being meshed with the internal thread gear, the thread liquid injection pipe descends under the limit of the sliding block column and is pulled out of the inner side of the isolating drum, at the moment, liquid in the liquid storage drum flows into the inner side of the mixing drum through the thread liquid injection pipe and the liquid injection port, when the internal thread gear is located at a smooth opening in the middle of the arc toothed plate, the internal thread gear cannot rotate due to the absence of teeth, so that the thread liquid injection pipe can continuously add liquid, when the rear end of the smooth opening rotates to be meshed with the internal thread gear = and drives to rotate, the thread liquid injection pipe rises again to be inserted into the inner side of the isolation cylinder to stop adding liquid, the mixing cylinder is sequentially linked with a plurality of liquid storage cylinders in the rotating process to add different liquid carbon sources, in the process, the second motor is started to simultaneously drive two second rotating rods to rotate at a high speed, the gear disc enables a plurality of gear cylinders and the first vertical rod to rotate at a high speed under the driving of the second rotating rods, the second vertical rods and the mixing blades are driven to rotate under the action of the belt pulley and the belt, and the raw materials in the mixing cylinder are stirred and mixed through the rotation of the mixing blades;

meanwhile, the second rotating rod at the lower part drives the crushing blades to rotate, at the moment, solid raw materials are thrown into the inner side of the screen cylinder through the feeding hopper, the crushing blades rotate to impact and crush the raw materials, meanwhile, the bearing tray can drive the first arc-shaped ball at the top to be continuously contacted with the second arc-shaped ball when rotating, so that the screen cylinder vibrates up and down under the action of the sliding plate, powder on the inner side of the screen cylinder is shaken off and falls into the inner side of the material collecting frame through the material discharging cylinder, the falling powder is discharged through the material discharging port by continuous rotation of the material pushing blades, and the powder is directly put into the screen cylinder from the bottom when the mixing cylinder is placed;

and S3, after the mixing drum rotates for one circle, slowly driving the placing disc to descend and separate from the sealing cover under the action of the guide wheel and the inclined edge of the annular rail table, horizontally moving the guide wheel at the position of the translation port after the placing disc descends, and taking down the mixing drum and replacing the mixing drum with a new one to continue mixing.

Preferably, let during the initial stage in S2 first place the dish and pass through leading wheel rising and move, when the arc pinion rack at its L type frame top is every soon to contact with the internal thread gear of a liquid storage barrel bottom, annotate the liquid to the liquid storage barrel in proper order again.

Advantageous effects

The invention provides an efficient mixing device for carbon source production and a using method thereof. Compared with the prior art, the method has the following beneficial effects:

(1) This high-efficient mixing arrangement is used in carbon source production, upper portion through at the bottom plate is provided with mixing mechanism, and the cooperation is annotated material mechanism and broken mechanism and is advanced the use, first motor drives the carousel and is made a plurality of churn carry out slow rotation, can carry out the injection of different raw materialss at the removal in-process through the cooperation of arc pinion rack and internal thread gear, the use of the fluted disc of arranging again lets a plurality of rotatory and drive the stirring leaf and stir, make the carbon source when the production mixes, can annotate material stirring on one side, conveniently carry out the taking and the installation of churn through the cooperation of leading wheel with annular track platform after the stirring is accomplished, the time gap of annotating material and row material has been reduced, improve the continuity of production, make the production mix have continuity and more high efficiency, satisfy in current use.

(2) This high-efficient mixing arrangement is used in carbon source production, it has the screw thread to annotate the liquid pipe to install through the bottom slidable mounting at the liquid storage cylinder, and the surperficial threaded connection who annotates the liquid pipe at the screw thread has the internal thread gear who cooperatees and use with arc pinion rack, and the screw thread is annotated the liquid pipe and is still carried on spacingly through the slider post, the setting of these structures can drive its rotation and annotate the liquid pipe with the screw thread and extract from a separator section of thick bamboo inboard after the front end of arc pinion rack contacts with the internal thread gear, it is inboard to make liquid annotate the liquid pipe through the screw thread and annotate the liquid pipe injection agitator section of thick bamboo, and what arc pinion rack surface middle part was reserved can leave time to the injected liquid, it is not at the flowing back to make the screw thread annotate liquid pipe to insert the separator section of thick bamboo again after rear end and the internal thread gear meshing, these structures can be with the process of liquid filling in the step of blending, do not need the manual work to carry out in advance batching, the time has been saved the indirect human cost of having reduced work.

(3) This high-efficient mixing arrangement is used in carbon source production, be provided with broken case through the bottom at annular platform, and there is a sieve section of thick bamboo at the inside slidable mounting of broken case, the second motor also can drive the broken leaf through the second dwang when driving the toothed disc rotation, the bearing dish and push away material blade and rotate, the setting of these structures can be when stirring through the toothed disc, make broken leaf carry out the breakage to the raw materials that the feeding hopper drops into, and the rotation of bearing dish makes first arc ball and second arc ball constantly contact, it reduces the blockiness to drive a sieve section of thick bamboo and vibrate the sieve material, it rotates the powder and arranges away from the bin outlet to push away the material blade, the purpose of preparation has been reached for the basic raw materials of carbon source, the holistic functionality of equipment and practicality have also been improved simultaneously, indirect manufacturing cost has been reduced.

(4) This high-efficient mixing arrangement is used in carbon source production, top through at the slip montant is installed annular rail platform, and set up the translation mouth and cooperate the use with the leading wheel, the cooperation of these two sets of equipment is used, can place back through rotatory automatic rising and closing cap butt joint after the churn, make the stirring leaf immerse the churn and stir, the montant that slides simultaneously inserts the snap ring inboard and dies, stability when having guaranteed the operation, and descend automatically behind the rotatory round, conveniently get the material, the effectual holistic degree of automation of equipment that has improved, convenient operation and use.

Drawings

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

FIG. 2 is a top view of the internal structure of the annular table of the present invention;

FIG. 3 is a schematic view of the mixing mechanism configuration of the present invention;

FIG. 4 is an enlarged view of a portion of the invention at A in FIG. 3;

FIG. 5 is a bottom view of the mixing mechanism configuration of the present invention;

FIG. 6 is a schematic view of the construction of the turntable, mounting opening and sliding channel of the present invention;

FIG. 7 is a cross-sectional view of an L-shaped frame structure of the present invention;

FIG. 8 is a schematic view of the annular table, attachment frame and translation port configuration of the present invention;

FIG. 9 is a schematic view of the structure of the injection mechanism of the present invention;

FIG. 10 is a cross-sectional view of a reservoir configuration of the present invention;

FIG. 11 is an enlarged view of a portion of the invention at B in FIG. 10;

FIG. 12 is a schematic view of the internal threaded gear, annular sliding groove and sliding post configuration of the present invention;

FIG. 13 is a schematic view of the crushing mechanism configuration of the present invention;

FIG. 14 is a cross-sectional view of the crushing box structure of the present invention;

FIG. 15 is a schematic view of the internal structure of the crushing box of the present invention;

FIG. 16 is a schematic view of the slide plate, screen cylinder and second curved ball configuration of the present invention;

FIG. 17 is a schematic view of the configuration of the pusher blade, the support tray and the first arcuate ball of the present invention.

In the figure: 1. a base plate; 2. a mixing mechanism; 3. a material injection mechanism; 4. a crushing mechanism; 5. a support column; 201. an annular table; 202. an annular track table; 203. a translation port; 204. a first motor; 205. a first rotating lever; 206. an L-shaped frame; 207. a turntable; 208. an installation port; 209. a sliding groove; 210. sliding the vertical rod; 211. placing a tray; 212. a guide wheel; 213. a first vertical bar; 214. a second vertical bar; 215. a belt pulley; 216. a belt; 217. stirring blades; 218. sealing the cover; 219. a snap ring; 220. a gear drum; 221. a linkage groove; 222. an arc toothed plate; 223. smoothing the opening; 224. a liquid injection port; 225. a mixing drum; 301. a support plate; 302. a liquid storage cylinder; 303. a connecting frame; 304. a threaded liquid injection pipe; 305. a first chute plate; 306. a slider post; 307. an isolation cylinder; 308. an internally threaded gear; 309. an annular sliding groove; 310. a sliding post; 401. a crushing box; 402. a second motor; 403. a second rotating lever; 404. a gear plate; 405. a second chute plate; 406. a slide plate; 407. a screen cylinder; 408. a feeding port; 409. a limit ring frame; 410. a discharge cylinder; 411. crushing the leaves; 412. a material collecting frame; 413. a pusher blade; 414. a support tray; 415. a first arc-shaped ball; 416. a second arc-shaped ball; 417. a discharge outlet; 418. a feeding hopper.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-17, the present invention provides a technical solution: the utility model provides a high-efficient mixing arrangement is used in carbon source production, includes bottom plate 1, the periphery fixedly connected with support column 5 at 1 top of bottom plate, and mixing mechanism 2 is installed on the top of support column 5, and mixing mechanism 2's surface is provided with notes material mechanism 3 that cooperatees and use, and mixing mechanism 2's lower part is provided with the broken mechanism 4 that cooperatees and use with mixing mechanism 2.

As a preferred embodiment, in order to cooperate with the injection mechanism 3 to improve the mixing efficiency, in the present invention, the mixing mechanism 2 includes an annular table 201, the annular table 201 is fixedly mounted on the top end of the supporting column 5, an annular rail table 202 is fixedly connected to the top of the annular table 201, a translation port 203 is formed in the front portion of the annular rail table 202, the injection mechanism 3 includes a plurality of supporting plates 301, the supporting plates 301 are fixedly connected to the surface of the annular table 201 through fixing seats, the top ends of the supporting plates 301 are fixedly connected to liquid storage cylinders 302, a connecting frame 303 is fixedly connected between the two liquid storage cylinders 302 through a support, a first motor 204 is fixedly connected to the inner side of the connecting frame 303, the first motor 204 is a servo motor, the output shaft of the first motor 204 is fixedly connected to a first rotating rod 205 through a coupling, an L-shaped frame 206 is fixedly connected to the surface of the first rotating rod 205 through a support, the L-shaped frame 206 is provided with a plurality of L-shaped frames 206, the periphery of the plurality of L-shaped frames 206 is fixedly connected with a turntable 207, the periphery of the top of the turntable 207 is provided with a plurality of mounting ports 208, the mounting ports 208 are annularly provided with a plurality of linkage grooves 221, the top of the inner cavity of the annular table 201 is provided with sliding grooves 209 on both sides of the inner cavity of the mounting ports 208, sliding vertical rods 210 are slidably mounted on the inner sides of the sliding grooves 209, a placing disc 211 is fixedly connected between the bottom ends of the two sliding vertical rods 210, a stirring cylinder 225 is placed on the inner side of the placing disc 211, both sides of the bottom of the placing disc 211 are rotatably connected with guide wheels 212 matched with the annular rail table 202 through rotating parts, the rear part of the top of the inner cavity of the L-shaped frame 206 is rotatably connected with a first vertical rod 213 through a bearing part, the front part of the top of the inner cavity of the L-shaped frame 206 is rotatably connected with a second vertical rod 214 through a bearing part, the surfaces of the first vertical rod 213 and the second vertical rod 214 are fixedly connected with belt pulleys 215, the two belt pulleys 215 are in transmission connection through a belt 216, the front portion of the bottom of the L-shaped frame 206 is fixedly connected with a sealing cover 218 matched with a stirring drum 225 through a fixing block, the bottom end of a second vertical rod 214 sequentially penetrates through the L-shaped frame 206 and the sealing cover 218 and extends to the lower portion of the sealing cover 218, one end, extending to the lower portion of the sealing cover 218, of the second vertical rod 214 is fixedly connected with a stirring blade 217 matched with the stirring drum 225, the second vertical rod 214 is rotatably connected with the L-shaped frame 206 and the sealing cover 218, two sides of the sealing cover 218 are fixedly connected with clamping rings 219 matched with sliding vertical rods 210, the bottom end of the first vertical rod 213 extends to the inner side of the linkage groove 221, one end, extending to the inner side of the linkage groove 221, of the first vertical rod 213 is fixedly connected with a gear drum 220, the top of the L-shaped frame 206 is fixedly connected with an arc-shaped toothed plate 222, a flat sliding opening 223 is formed in the middle of the surface of the arc-shaped toothed plate 222, and a liquid injection opening 224 is formed in the front portion of the top of the sealing cover 218.

In order to cooperate with the mixing mechanism 2 for automatic material injection, in the present invention, a threaded liquid injection pipe 304 cooperating with the sealing cap 218 is slidably connected to the front side of the bottom of the inner cavity of the liquid storage barrel 302 through an opening, the surface of the threaded liquid injection pipe 304 is a reciprocating threaded groove, the bottom end of the threaded liquid injection pipe 304 penetrates through the liquid storage barrel 302 and extends to the lower side of the liquid storage barrel 302, a first chute plate 305 is fixedly connected to one side of the threaded liquid injection pipe 304 and located inside the liquid storage barrel 302, a slider column 306 cooperating with the first chute plate 305 is fixedly connected to one side of the bottom of the inner cavity of the liquid storage barrel 302, an isolation barrel 307 cooperating with the threaded liquid injection pipe 304 is fixedly connected to the inner side wall of the liquid storage barrel 302, an internal threaded gear 308 cooperating with the arc-shaped toothed plate 222 is threadedly connected to the surface of the threaded liquid injection pipe 304 and located at the lower part of the liquid storage barrel 302, an annular sliding groove 309 is formed at the top of the internal threaded gear 308, a sliding column 310 is slidably installed inside the annular sliding groove 309, and the top end of the sliding column 310 is fixedly connected to the bottom of the liquid storage barrel 302.

As a preferred embodiment, in order to crush the solid raw material, in the present invention, the crushing mechanism 4 comprises a crushing box 401, the crushing box 401 is fixedly connected to the bottom of the annular table 201 through a fixing block, the bottom of the inner cavity of the interlocking groove 221 is fixedly connected to a second motor 402 and a second motor 402 servo motor through an opening, two output shafts of the second motor 402 are fixedly connected to a second rotating rod 403 through a coupling, the top end of the upper second rotating rod 403 is fixedly connected to a gear disc 404 engaged with the gear drum 220, two sides of the inner cavity of the crushing box 401 are fixedly connected to second chute plates 405, sliding plates 406 are slidably mounted on the inner sides of the second chute plates 405, a screen drum 407 is fixedly connected between the two sliding plates 406, the upside fixedly connected with of backup pad 301 inner wall cooperatees with a sieve section of thick bamboo 407 and uses limit ring frame 409, broken case 401's surface is seted up and is cooperated with a sieve section of thick bamboo 407 and uses dog-house 408, the inboard fixedly connected with magazine 418 of dog-house 408, broken case 401's bottom is through seting up opening fixedly connected with and sieve section of thick bamboo 407 and cooperate and use and arrange a material section of thick bamboo 410, bottom plate 1's top just is located backup pad 301's lower part fixedly connected with and arranges a material section of thick bamboo 410 and cooperate and use and expect frame 412, the bottom of lower part second dwang 403 runs through backup pad 301 and a sieve section of thick bamboo 407 in proper order and is connected through the bottom rotation of bearing spare and the frame 412 inner chamber that gathers materials, the surface of second dwang 403 just is located the inboard fixedly connected with of a sieve section of thick bamboo 407 and cooperates and uses broken leaf 411 with a sieve section of thick bamboo 407, and second dwang 403 and sieve section of thick bamboo 407 are sliding connection.

In order to avoid blocking of the powder under the screen during crushing, a material pushing blade 413 is fixedly connected to the surface of the second rotating rod 403 and located on the inner side of the material collecting frame 412, a bearing tray 414 is fixedly connected to the surface of the second rotating rod 403 and located on the lower portion of the screen cylinder 407, a first arc-shaped ball 415 is fixedly connected to the periphery of the top of the bearing tray 414, a second arc-shaped ball 416 matched with the first arc-shaped ball 415 is fixedly connected to the bottom of the screen cylinder 407, and a material outlet 417 is formed in the surface of the material collecting frame 412.

The invention also discloses a use method of the high-efficiency mixing device for producing the carbon source, which specifically comprises the following steps:

s1, respectively injecting different types of single carbon source liquid into the four liquid storage cylinders 302 before use, then simultaneously starting the first motor 204 and the second motor 402, and then carrying out a mixing process;

s2, when the first motor 204 is started, the first rotating rod 205 drives the rotating disc 207 and the plurality of L-shaped frames 206 to rotate, at this time, a certain amount of powdery raw material is put into the inner side of the mixing drum 225 and then placed on the inner side of the placing disc 211, and as the rotating disc 207 drives the L-shaped frame 206 to rotate, the guide wheel 212 contacts with the annular rail table 202 to push the placing disc 211 to ascend under the limit of the sliding vertical rod 210, so that the placing disc 211 is butted with the sealing cover 218, meanwhile, the sliding vertical rod 210 is inserted into the inner side of the snap ring 219 for limiting, then the mixing drum 225 rotates continuously through the placing disc 211, after the front end of the arc-shaped toothed plate 222 is meshed with the internal thread gear 308, the arc-shaped toothed plate is driven to rotate, the thread liquid injection pipe 304 is descended and is extracted from the inner side of the isolation drum 307 under the limit of the sliding block column 306, at this time, the liquid in the liquid storage drum 302 flows into the inner side of the stirring drum 225 through the thread liquid injection pipe 304 and the liquid injection port 224, when the internal thread gear 308 is positioned at the smooth port 223 in the middle of the arc-shaped toothed plate 222, because the teeth are not arranged, the internal thread gear 308 can not rotate, so that the thread liquid injection pipe 304 can continuously add liquid, when the rear end of the smooth opening 223 rotates to be meshed with the internal thread gear 308= and is driven to rotate, the thread liquid injection pipe 304 rises again and is inserted into the inner side of the isolation cylinder 307 to stop liquid injection, the mixing cylinder 225 is linked with a plurality of liquid storage cylinders 302 in sequence in the rotating process to perform the addition of different liquid carbon sources, in this process, the second motor 402 is started to drive the two second rotating rods 403 to rotate at a high speed, the gear plate 404 is driven by the second rotating rods 403 to make the plurality of gear cylinders 220 and the first vertical rod 213 rotate at a high speed during the revolution, the belt pulley 215 and the belt 216 act to drive the second vertical rod 214 and the stirring blade 217 to rotate, and the rotation of the stirring blade 217 stirs and mixes the raw materials in the stirring drum 225;

meanwhile, the second rotating rod 403 at the lower part drives the crushing blade 411 to rotate, at this time, solid raw materials are thrown into the inner side of the screen cylinder 407 through the feeding hopper 418, the crushing blade 411 rotates to crush the raw materials in an impact manner, meanwhile, the bearing tray 414 rotates to drive the first arc-shaped ball 415 at the top to be continuously contacted with the second arc-shaped ball 416, so that the screen cylinder 407 vibrates up and down under the action of the sliding plate 406, powder inside the screen cylinder 407 is shaken off and falls into the inner side of the material collecting frame 412 through the material discharging cylinder 410, the falling powder is discharged through the material discharging opening 417 by continuous rotation of the material pushing blade 413, and the powder is directly put into the stirring cylinder 225 from the bottom when the stirring cylinder is placed;

s3, after the mixing drum 225 rotates for one circle, the placing disc 211 is slowly driven to descend to be separated from the sealing cover 218 under the action of the guide wheel 212 and the inclined edge of the annular rail table 202, the guide wheel 212 horizontally moves at the position of the translation port 203 after the placing disc 211 descends, and at the moment, the mixing drum 225 is taken down and replaced by a new mixing drum 225 for continuous mixing.

Wherein, let the first dish 211 of placing pass through leading wheel 212 rising removal during the initial stage in S2, every time the arc pinion rack 222 at its L type frame 206 top contacts with the internal thread gear 308 of a liquid storage section of thick bamboo 302 bottom, annotate liquid to the liquid storage section of thick bamboo 302 in proper order again.

Claims (10)

1. The utility model provides a high-efficient mixing arrangement is used in carbon source production, includes bottom plate (1), its characterized in that: the periphery fixedly connected with support column (5) at bottom plate (1) top, mixing mechanism (2) are installed on the top of support column (5), the surface of mixing mechanism (2) is provided with notes material mechanism (3) that cooperate and use, the lower part of mixing mechanism (2) is provided with crushing mechanism (4) that cooperate and use with mixing mechanism (2).

2. The efficient mixing apparatus for carbon source production according to claim 1, wherein: mixing mechanism (2) include annular platform (201), and annular platform (201) fixed mounting is on the top of support column (5), the top fixed connection of annular platform (201) has annular rail platform (202), translation mouth (203) have been seted up to the front portion of annular rail platform (202), it is provided with a plurality of, a plurality of to annotate material mechanism (3) including backup pad (301) and backup pad (301) are through fixing base fixed connection in the surface of annular platform (201), the top fixedly connected with liquid storage cylinder (302) of backup pad (301), two through support fixedly connected with link (303) between liquid storage cylinder (302), the first motor (204) of inboard fixedly connected with of link (303), the output shaft of first motor (204) passes through the first rotation pole (205) of shaft coupling fixedly connected with, the surface of first rotation pole (205) is through linkage support fixedly connected with L type frame (206), and L type frame (206) are provided with a plurality of, a plurality of the periphery fixedly connected with carousel (207) of L type frame (206), the periphery mounting disc (208) and annular mounting hole (208) have been seted up annular table top (201), and annular mounting hole (201).

3. The efficient mixing device for carbon source production according to claim 2, wherein: sliding tray (209) have all been seted up to the both sides of installing port (208) inner chamber, the inboard slidable mounting of sliding tray (209) has slip montant (210), two fixedly connected with places dish (211) between the bottom of slip montant (210), the inboard of placing dish (211) has placed churn (225), the both sides of placing dish (211) bottom all are rotated through rotating the piece and are connected with leading wheel (212) that cooperate and use with annular rail platform (202), the rear portion at L type frame (206) inner chamber top is rotated through the bearing piece and is connected with first montant (213), the front portion at L type frame (206) inner chamber top is rotated through the bearing piece and is connected with second montant (214), the equal fixedly connected with belt pulley (215) in surface of first montant (213) and second montant (214), two through belt pulley (216) transmission connection, the closing cap (218) that cooperate and use with churn (225) through fixed block fixedly connected with are connected with to the front portion of L type frame (206) bottom.

4. The efficient mixing device for carbon source production according to claim 3, wherein: the utility model discloses a gear type mixing machine, including first montant (213), second montant (214), L type frame (206), closing cap (218), stirring leaf (217) that cooperate and use with churn (225), and second montant (214) and L type frame (206) and closing cap (218) are connected for rotating, the equal fixedly connected with in one end of closing cap (218) lower part and snap ring (219) that cooperate and use with slip montant (210) of both sides of closing cap (218), the bottom of first montant (213) extends to the inboard of linkage groove (221), first montant (213) extends to the inboard one end fixedly connected with gear drum (220) of linkage groove (221), the top fixedly connected with arc pinion rack (222) of L type frame (206), smooth mouth (223) have been seted up at the middle part on arc pinion rack (222) surface, the front side at closing cap (218) top is equipped with annotates liquid mouth (224).

5. The efficient mixing apparatus for carbon source production according to claim 2, wherein: the utility model discloses a liquid storage barrel, including liquid storage barrel (302), one side of liquid storage barrel (302) inner chamber bottom is through seting up the screw thread liquid injection pipe (304) that open sliding connection has and closing cap (218) cooperation use, and the bottom of screw thread liquid injection pipe (304) runs through liquid storage barrel (302) and extends to the below of liquid storage barrel (302), the first chute board (305) of inside fixedly connected with of one side of screw thread liquid injection pipe (304) and being located liquid storage barrel (302), one side fixedly connected with of liquid storage barrel (302) inner chamber bottom and first chute board (305) cooperate the use slider post (306), the inside wall fixedly connected with of liquid storage barrel (302) and screw thread liquid injection pipe (304) cooperation use keep apart the section of thick bamboo (307), the surface of screw thread liquid injection pipe (304) and the lower part threaded connection that is located liquid storage barrel (302) have with arc pinion rack (222) cooperation use internal thread gear (308), annular sliding groove (309) has been seted up at the top of internal thread gear (308), the inboard slidable mounting of annular sliding groove (309), and the top of sliding post (310) and the bottom fixed connection of liquid storage barrel (302).

6. The efficient mixing apparatus for carbon source production according to claim 4, wherein: broken mechanism (4) are including broken case (401), and broken case (401) pass through the bottom of fixed block fixed connection in annular platform (201), linkage groove (221) inner chamber bottom is through seting up opening fixedly connected with second motor (402), two output shafts of second motor (402) all pass through shaft coupling fixedly connected with second dwang (403), upper portion the top fixedly connected with of second dwang (403) and gear drum (220) engaged with gear dish (404), the equal fixedly connected with second spout plate (405) of both sides of broken case (401) inner chamber, and the inboard slidable mounting of second spout plate (405) has slide (406), two fixedly connected with sieve section of thick bamboo (407) between slide (406), the upside fixedly connected with of backup pad (301) inner wall cooperatees limit ring frame (409) that uses with sieve section of thick bamboo (407), dog-house (408) that cooperatees and use with sieve section of thick bamboo (407) have been seted up on the surface of broken case (401), the inboard fixedly connected with dog-house (418) of dog-house (408).

7. The efficient mixing apparatus for carbon source production according to claim 6, wherein: the bottom of broken case (401) is through seting up opening fixedly connected with and sieve a section of thick bamboo (410) of the row that cooperatees and use, the top of bottom plate (1) and the lower part fixedly connected with that is located backup pad (301) and the collection frame (412) that row of material section of thick bamboo (410) cooperateed and use, the lower part the bottom of second dwang (403) runs through backup pad (301) and sieve a section of thick bamboo (407) in proper order and is connected through bearing spare and the bottom rotation of gathering material frame (412) inner chamber, the surface of second dwang (403) and the inboard fixedly connected with that is located sieve a section of thick bamboo (407) and sieve a section of thick bamboo (407) cooperate and use broken leaf (411), and second dwang (407) are sliding connection with sieve section of thick bamboo (407), the surface of second dwang (403) and the inboard fixedly connected with that is located collection frame (412) push away material blade (413), the surface of second dwang (403) and the lower part fixedly connected with that is located sieve section of thick bamboo (407) and holds tray (414), the periphery fixedly connected with first arc ball (415) that holds tray (414) top, sieve section of thick bamboo (416) and sieve section of thick bamboo (415) cooperate and first arc ball (416) and second arc ball (416).

8. The efficient mixing apparatus for carbon source production according to claim 7, wherein: the surface of the material collecting frame (412) is provided with a material discharging opening (417).

9. The use method of the high-efficiency mixing device for producing the carbon source is characterized by comprising the following steps of: the method specifically comprises the following steps:

s1, respectively injecting different types of single carbon source liquid into four liquid storage cylinders (302) before use, then simultaneously starting a first motor (204) and a second motor (402), and then carrying out a mixing process;

s2, when the first motor (204) is started, the first rotating rod (205) drives the rotating disc (207) and the L-shaped frames (206) to rotate, at this time, a certain amount of powdery raw materials are placed on the inner side of the stirring cylinder (225) and then placed on the inner side of the placing disc (211), the L-shaped frames (206) are driven to rotate along with the rotating disc (207), the guide wheel (212) is in contact with the annular rail table (202) to push the placing disc (211) to ascend under the limiting effect of the sliding vertical rod (210), the placing disc (211) is in butt joint with the sealing cover (218), the sliding vertical rod (210) is inserted into the inner side of the clamping ring (219) to limit, and then the stirring cylinder (225) continues to rotate through the placing disc (211), wait that the front end of arc pinion rack (222) meshes with internal thread gear (308) and drive it rotatory after, make screw thread annotate liquid pipe (304) descend and extract from an isolation cylinder (307) inboard under the spacing of slider post (306), the liquid of liquid storage barrel (302) inside flows into the inboard of churn (225) through screw thread annotate liquid pipe (304) and annotate liquid mouth (224) this moment, wait that internal thread gear (308) are located smooth mouth (223) at arc pinion rack (222) middle part, owing to not having the tooth, internal thread gear (308) can not rotate, make screw thread annotate liquid pipe (304) and continue the liquid feeding, wait that the rear end of smooth mouth (223) is rotatory to be engaged with internal thread gear (308) = and drive and revolve the liquid feeding When the stirring device rotates, the thread liquid injection pipe (304) rises again and is inserted into the inner side of the isolation cylinder (307) to stop liquid injection, the stirring cylinder (225) is sequentially linked with the liquid storage cylinders (302) in the rotating process to add different liquid carbon sources, in the process, the second motor (402) is started to simultaneously drive the two second rotating rods (403) to rotate at a high speed, the gear disc (404) is driven by the second rotating rods (403) to enable the gear cylinders (220) and the first vertical rod (213) to rotate at a high speed during revolution, the second vertical rod (214) and the stirring blade (217) are driven to rotate under the action of the belt pulley (215) and the belt (216), and the raw materials in the stirring cylinder (225) are stirred and mixed through the rotation of the stirring blade (217);

meanwhile, the second rotating rod (403) at the lower part drives the crushing blade (411) to rotate, solid raw materials are fed into the inner side of the screen cylinder (407) through the feeding hopper (418), the crushing blade (411) rotates to impact and crush the raw materials, meanwhile, the bearing tray (414) drives the first arc-shaped ball (415) at the top to continuously contact with the second arc-shaped ball (416) when rotating, so that the screen cylinder (407) vibrates up and down under the action of the sliding plate (406), powder on the inner side of the screen cylinder (407) is shaken off and falls into the inner side of the material collecting frame (412) through the discharging cylinder (410), the falling powder is discharged through the discharging opening (417) by the continuous rotation of the material pushing blade (413), and the powder is directly discharged from the bottom when the stirring cylinder (225) is placed;

s3, after the mixing drum (225) completes one circle of rotation, the placing disc (211) is slowly driven to descend to be separated from the sealing cover (218) under the action of the guide wheel (212) and the bevel edge of the annular rail table (202), the guide wheel (212) horizontally moves at the position of the translation port (203) after the placing disc (211) descends, and at the moment, the mixing drum (225) is taken down and replaced by a new mixing drum (225) to continue mixing.

10. The use method of the efficient mixing apparatus for carbon source production according to claim 9, wherein: in the initial stage of S2, the first placing disc (211) is lifted and moved through the guide wheel (212), and when the arc toothed plate (222) at the top of the L-shaped frame (206) is in contact with the internal thread gear (308) at the bottom of one liquid storage cylinder (302), liquid is injected into the liquid storage cylinders (302) in sequence.

Images