CN220467941U - Efficient reaction structure of soil microorganism expanding culture device - Google Patents

Abstract

The utility model relates to the technical field of soil microorganism expansion culture, in particular to a high-efficiency reaction structure of a soil microorganism expansion culture device, which comprises a supporting mechanism, wherein a liquid storage mechanism is arranged on the supporting mechanism; the liquid storage mechanism is provided with a feeding mechanism; a tank cover is clamped on the feeding mechanism; a positioning mechanism is rotated on the tank cover; a stirring mechanism is arranged on the tank cover; the stirring mechanism is connected with the mixing mechanism in a matched manner; the stirring mechanism is provided with a sealing mechanism; the sealing mechanism is connected with the feeding mechanism in a matched manner; adding raw materials into a feeding mechanism, opening a stirring mechanism and a supporting mechanism, and stirring the raw materials; the sealing mechanism is started, so that the stirred raw materials can flow into the liquid storage mechanism, and the raw materials and water can be fully and uniformly mixed when the stirring mechanism drives the mixing mechanism to rotate; the tool rotary positioning mechanism is used, so that the tool rotary positioning mechanism can be separated from the feeding mechanism, and the feeding mechanism is conveniently opened and the inside of the stirring mechanism is conveniently cleaned.

Description

Efficient reaction structure of soil microorganism expanding culture device

Technical Field

The utility model relates to the technical field of soil microorganism expansion culture, in particular to a high-efficiency reaction structure of a soil microorganism expansion culture device.

Background

When the soil microorganisms are spread and cultivated, raw materials, strains and water are required to be mixed together, and as the existing spread and cultivated device is generally not provided with a stirring assembly, when the required raw materials are all put together, solid raw materials are easily accumulated at the bottom of the device under the condition of no stirring after being contacted with the water, so that the raw materials are inconvenient to mix; in addition, in the culture process, a component for heating the mixed solution is lacking in the device, so that the reaction effect of microorganisms is not improved; in the microorganism culture process, operators need to check the reaction condition of the mixed liquid regularly, and the cover of the liquid storage device needs to be opened during checking, so that the operation is inconvenient, and the use effect of the device is further improved.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides a high-efficiency reaction structure of a soil microorganism culture expanding device.

The technical scheme adopted for solving the technical problems is as follows: the efficient reaction structure of the soil microorganism expanding culture device comprises a supporting mechanism, wherein a liquid storage mechanism is arranged on the supporting mechanism; the liquid storage mechanism is provided with a feeding mechanism; a tank cover is clamped on the feeding mechanism; a positioning mechanism is rotated on the tank cover; a stirring mechanism is arranged on the tank cover; the stirring mechanism is connected with the mixing mechanism in a matched manner; the stirring mechanism is provided with a sealing mechanism; the sealing mechanism is connected with the feeding mechanism in a matched manner;

the positioning mechanism comprises a positioning rod, the positioning rod is rotationally connected to the tank cover, a sliding rod is connected to the positioning rod in a threaded manner, the sliding rod is slidably connected with the tank cover, a roller is abutted to the sliding rod, the roller is rotationally connected with the supporting rod, a connecting shaft is fixedly installed on the supporting rod, the connecting shaft is rotationally connected with the tank cover, a torsion spring is sleeved on the connecting shaft, the supporting rod is connected with the tank cover in a matched manner through the torsion spring, and the end part of the supporting rod is connected with the feeding mechanism in a matched manner.

Specifically, feed mechanism includes the connecting block, support the pole and contradict with the connecting block, be equipped with the empty slot on the connecting block, empty slot position cooperation rotates has the pole of supporting, feed mechanism still includes the agitator tank, two fixed connection between connecting block all and the agitator tank, the electric heating wire is installed to the cooperation on the agitator tank, the intercommunication has the pipe on the agitator tank, fixed mounting has the charging hopper on the pipe, the agitator tank passes through the mounting bracket and is connected with the pipe cooperation.

Specifically, rabbling mechanism includes the fixed block, fixed block is installed to fixed mounting on the cover, install the motor on the cover, the output of motor passes through shaft coupling fixedly connected with pivot, be cyclic annular equidistance fixedly connected with a plurality of groups connecting rod in the pivot, fixed connection between connecting rod and the scraper blade, rotate between scraper blade and the agitator tank and be connected.

Specifically, sealing mechanism includes the drainage groove, be equipped with the drainage groove on the agitator tank, drainage groove position cooperation slip has the closing plate, it has sealed the pad to bond on the closing plate, sliding connection between sealed pad and the agitator tank, fixed connection between closing plate and the hydraulic stem, cooperation connection between hydraulic stem and the agitator tank.

Specifically, stock solution mechanism includes the liquid mixing jar, the agitator tank is connected with the cooperation between the liquid mixing jar, fixed mounting has fluid-discharge tube and water injection pipe on the liquid mixing jar, equidistant fixedly connected with a plurality of bracing piece on the liquid mixing jar.

Specifically, supporting mechanism includes the base, fixed connection between bracing piece, the liquid mixing jar all and the base, two support frames are installed to the symmetry on the base, fixed mounting has the universal wheel on the support frame, supporting mechanism still includes the oxygen jar, fixed mounting has the oxygen jar on the base, the oxygen jar passes through oxygen supply tube and agitator tank intercommunication.

Specifically, compounding mechanism includes the tooth piece, the meshing has the tooth piece in the pivot, fixed connection between tooth piece and the stock, two sets of first bull stick of fixed mounting and second bull stick on the stock, equal fixedly connected with a plurality of puddler on first bull stick and the second bull stick, compounding mechanism still includes the installation piece, rotate between stock and the installation piece to be connected, fixed connection between installation piece and the mixed fluid jar, be cyclic annular equidistance cooperation rotation on the installation piece and have the ball, roll connection between ball and the stock.

The beneficial effects of the utility model are as follows:

(1) According to the efficient reaction structure of the soil microorganism expanding culture device, raw materials required by microorganism expanding culture are added into the feeding mechanism, and the stirring mechanism and the supporting mechanism are opened, so that the raw materials can be stirred, and the reaction efficiency of the raw materials is improved, namely: the electric heating wire is arranged in the stirring tank, after the electric heating wire heats water, the operator adds raw materials required by microorganism expansion culture into the upper hopper, a guide pipe is fixedly arranged on the upper hopper and communicated with the stirring tank, a mounting frame is fixedly arranged on the guide pipe, the mounting frame is fixedly connected with the stirring tank, the raw materials are discharged into the stirring tank through the guide pipe, a control switch of a motor is turned on, the motor is arranged on a tank cover, the output end of the motor is fixedly connected with a rotating shaft through a coupler, the rotating shaft drives a plurality of groups of connecting rods to rotate when the motor is started, the connecting rods stir and mix the heated water and the raw materials, and the reaction efficiency can be improved due to the arrangement of the electric heating wire; the stirring tank is communicated with the oxygen tank through the oxygen supply pipe, the oxygen tank is arranged on the base, oxygen in the oxygen tank is pumped into the stirring tank through the oxygen supply pipe, after water is uniformly mixed, a control switch of the electric heating wire is turned off, when the water temperature is cooled to a certain temperature, an operator can turn on the control switch of the hydraulic rod, the hydraulic rod is arranged on the stirring tank, the hydraulic rod is fixedly connected with the sealing plate, the sealing plate is abutted to the rotating shaft, the sealing plate can be separated from the rotating shaft when the hydraulic rod drives the sealing plate to slide into the stirring tank, a liquid discharge groove is arranged in the stirring tank, after the sealing plate slides into the stirring tank, mixed liquid can be discharged into the liquid mixing tank through the liquid discharge groove, and the bottom end of the stirring tank is in an inclined plane, so that the liquid can be discharged cleanly; when the liquid is discharged, the scraper is arranged at the end part of the connecting rod, and the connecting rod drives the scraper to rotate, so that the scraper can discharge the liquid attached to the inner wall of the stirring tank.

(2) According to the efficient reaction structure of the soil microorganism culture expansion device, the sealing mechanism is started, so that the stirred raw materials can flow into the liquid storage mechanism, and when the stirring mechanism drives the mixing mechanism to rotate, the raw materials and water can be fully and uniformly mixed, namely: the water injection pipe is arranged on the liquid mixing tank, after water is injected into the liquid mixing tank, the water injection pipe can be mixed with mixed liquid, the tooth block is arranged at the bottom end of the rotating shaft in a clamping way, the tooth block is fixedly connected with the long rod, when the rotating shaft rotates, the tooth block can drive the long rod to rotate, the end part of the long rod is rotationally connected with the mounting block, the mounting block is fixed at the bottom end of the liquid mixing tank, a plurality of balls are rotationally matched on the mounting block in an annular equidistant manner, and when the long rod rotates, the balls can be driven to rotate, so that the rotating effect of the long rod is improved; the long rod is provided with a first rotating rod and a second rotating rod, stirring rods are respectively fixed on the first rotating rod and the second rotating rod, and when the long rod drives the first rotating rod and the second rotating rod to rotate, the stirring rods can stir water and mixed liquid in the liquid mixing tank, so that the mixing effect of the liquid is improved conveniently; when the liquid is required to be discharged, the control valve of the liquid discharge pipe can be opened, and the liquid discharge pipe is arranged on the liquid mixing tank, so that the liquid is conveniently discharged.

(3) According to the efficient reaction structure of the soil microorganism expanding culture device, the tool rotary positioning mechanism is used, so that the soil microorganism expanding culture device can be separated from the feeding mechanism, and the feeding mechanism is conveniently opened and the interior of the stirring mechanism is conveniently cleaned, namely: when needs clear up agitator tank inside, can use tool rotation locating lever, threaded connection between locating lever and the slide bar, the locating lever is when the cover internal rotation, can make the slide bar slide in the cover, the tip of slide bar is the inclined plane setting, the slide bar is contradicted to the gyro wheel, rotate between gyro wheel and the butt pole and be connected, install the connecting axle on the butt pole, the torsional spring has been cup jointed on the connecting axle, the butt pole passes through the torsional spring and is connected with the cover cooperation, when the slide bar slides in the direction that is close to the locating lever, can make slide bar and gyro wheel separation, and then make the butt pole reset under the reaction force of torsional spring, and then make the butt pole tip by the state of contradicting with the connecting block change into with the connecting block separation, be equipped with the empty slot on the connecting block, when the butt pole rotates at the empty slot position, can make it drive the gyro wheel rotatory, the connecting block is installed on the agitator tank, during connecting block and butt pole separation, the cover can be taken down to the operating personnel, and then be convenient for make the agitator tank be in open state, thereby be convenient for operating personnel clear up the agitator tank inside.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram showing the overall structure of a preferred embodiment of a high-efficiency reaction structure of a soil microorganism culture device according to the present utility model;

FIG. 2 is a schematic diagram of a connection structure of a stirring tank and a scraper of the utility model;

FIG. 3 is an enlarged schematic view of the portion A shown in FIG. 2;

FIG. 4 is an enlarged schematic view of the structure of the portion B shown in FIG. 2;

FIG. 5 is an enlarged schematic view of the structure of the portion C shown in FIG. 2;

FIG. 6 is a schematic diagram of a connection structure of a stirring tank and a sealing plate according to the present utility model;

FIG. 7 is a schematic diagram of a connection structure between a rotating shaft and a tooth block according to the present utility model;

fig. 8 is a schematic view of a connection structure of a long rod and a ball according to the present utility model.

In the figure: 1. a support mechanism; 101. a base; 102. a support frame; 103. a universal wheel; 104. an oxygen tank; 105. an oxygen supply pipe; 2. a liquid storage mechanism; 201. a liquid discharge pipe; 202. a support rod; 203. a liquid mixing tank; 204. a water injection pipe; 3. a feeding mechanism; 301. feeding a hopper; 302. a conduit; 303. a mounting frame; 304. a stirring tank; 305. an electric heating wire; 306. a connecting block; 307. a hollow groove; 4. a stirring mechanism; 401. a fixed block; 402. a motor; 403. a rotating shaft; 404. a connecting rod; 405. a scraper; 5. a positioning mechanism; 501. a positioning rod; 502. a slide bar; 503. a roller; 504. a connecting shaft; 505. a torsion spring; 506. a supporting rod; 6. a mixing mechanism; 601. a long rod; 602. a first rotating lever; 603. a stirring rod; 604. a second rotating rod; 605. tooth blocks; 606. a mounting block; 607. a ball; 7. a sealing mechanism; 701. a liquid discharge tank; 702. a sealing gasket; 703. a sealing plate; 704. a hydraulic rod; 8. a can lid.

Detailed Description

The utility model is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

As shown in fig. 1-8, the efficient reaction structure of the soil microorganism culture expansion device comprises a support mechanism 1, wherein a liquid storage mechanism 2 is arranged on the support mechanism 1; the liquid storage mechanism 2 is provided with a feeding mechanism 3; a tank cover 8 is clamped on the feeding mechanism 3; the tank cover 8 is provided with a positioning mechanism 5 in a rotating way; the tank cover 8 is provided with a stirring mechanism 4; the stirring mechanism 4 is connected with the mixing mechanism 6 in a matched manner; the stirring mechanism 4 is provided with a sealing mechanism 7; the sealing mechanism 7 is connected with the feeding mechanism 3 in a matched manner;

the positioning mechanism 5 comprises a positioning rod 501, the positioning rod 501 is rotationally connected to the tank cover 8, a sliding rod 502 is connected to the positioning rod 501 in a threaded mode, the sliding rod 502 is slidably connected with the tank cover 8, a roller 503 is abutted to the sliding rod 502, the roller 503 is rotationally connected with a supporting rod 506, a connecting shaft 504 is fixedly installed on the supporting rod 506, the connecting shaft 504 is rotationally connected with the tank cover 8, a torsion spring 505 is sleeved on the connecting shaft 504, the supporting rod 506 is connected with the tank cover 8 in a matched mode through the torsion spring 505, and the end portion of the supporting rod 506 is connected with the feeding mechanism 3 in a matched mode.

Specifically, feed mechanism 3 includes connecting block 306, support pole 506 and connecting block 306 conflict, be equipped with empty slot 307 on the connecting block 306, empty slot 307 position cooperation rotation has support pole 506, feed mechanism 3 still includes agitator tank 304, two fixed connection between connecting block 306 all and the agitator tank 304, the cooperation is installed electric heater strip 305 on the agitator tank 304, the intercommunication has pipe 302 on the agitator tank 304, fixed mounting has hopper 301 on the pipe 302, the agitator tank 304 is connected with pipe 302 cooperation through mounting bracket 303, uses tool rotation positioning mechanism 5, can make its and feed mechanism 3 separation, and then is convenient for open feed mechanism 3 and clear up inside the agitator mechanism 4, namely: when needs are cleared up to agitator tank 304 inside, can use tool rotation locating lever 501, threaded connection between locating lever 501 and the slide bar 502, when locating lever 501 rotates in cover 8, can make slide bar 502 slide in cover 8, the tip of slide bar 502 is the inclined plane setting, slide bar 502 is contradicted to gyro wheel 503, rotate between gyro wheel 503 and the support bar 506 and be connected, install connecting axle 504 on the support bar 506, connect torsional spring 505 on the connecting axle 504, support bar 506 passes through torsional spring 505 and cover 8 cooperation connection, when slide bar 502 slides to the direction that is close to locating lever 501, can make slide bar 502 and gyro wheel 503 separate, and then make support bar 506 reset under the reaction force of torsional spring 505, and then make support bar 506 tip change into with connecting block 306 separation by the state of contradicting with connecting block 306, be equipped with empty slot 307 on the connecting block 306, when support bar 506 rotates at empty slot 307 position, can make it drive gyro wheel 503 rotatory, the connecting block 306 is installed on agitator tank 304, when connecting block 306 and support bar 506 separate, the operation personnel can take off cover 8, and then be convenient for make agitator tank 304 be in the open state of being convenient for the inside of agitator tank 304, thereby the operation personnel is in the clearance to the inside.

Specifically, the stirring mechanism 4 comprises a fixed block 401, the fixed block 401 is fixedly installed on the tank cover 8, the motor 402 is installed on the tank cover 8, the output end of the motor 402 is fixedly connected with a rotating shaft 403 through a coupling, a plurality of groups of connecting rods 404 are fixedly connected to the rotating shaft 403 at equal intervals in an annular shape, the connecting rods 404 are fixedly connected with the scraping plates 405, and the scraping plates 405 are rotationally connected with the stirring tank 304.

Specifically, the sealing mechanism 7 includes the drain groove 701, be equipped with the drain groove 701 on the agitator tank 304, the cooperation of drain groove 701 position is slided and is had closing plate 703, it has sealing pad 702 to bond on the closing plate 703, sliding connection between sealing pad 702 and the agitator tank 304, fixed connection between closing plate 703 and the hydraulic rod 704, cooperation connection between hydraulic rod 704 and the agitator tank 304 adds feed mechanism 3 with the raw materials that the microorganism expands the cultivation needs in, opens rabbling mechanism 4 and supporting mechanism 1, can stir the raw materials and improve the reaction efficiency of raw materials, namely: an operator adds water into the stirring tank 304, an electric heating wire 305 is installed in the stirring tank 304, after the electric heating wire 305 heats water, the operator adds raw materials required by microorganism propagation into the upper hopper 301, a guide pipe 302 is fixedly installed on the upper hopper 301, the guide pipe 302 is communicated with the stirring tank 304, a mounting frame 303 is fixedly installed on the guide pipe 302, the mounting frame 303 is fixedly connected with the stirring tank 304, the raw materials are discharged into the stirring tank 304 through the guide pipe 302, a control switch of a motor 402 is turned on, the motor 402 is installed on the tank cover 8, the output end of the motor 402 is fixedly connected with a rotating shaft 403 through a coupler, when the motor 402 is started, the rotating shaft 403 drives a plurality of groups of connecting rods 404 to rotate, and the connecting rods 404 stir and mix the heated water and the raw materials, so that the reaction efficiency can be improved; the stirring tank 304 is communicated with the oxygen tank 104 through the oxygen supply pipe 105, the oxygen tank 104 is arranged on the base 101, oxygen in the oxygen tank 104 is pumped into the stirring tank 304 through the oxygen supply pipe 105, after water is uniformly mixed, a control switch of the electric heating wire 305 is turned off, when the water temperature is cooled to a certain temperature, an operator can turn on the control switch of the hydraulic rod 704, the hydraulic rod 704 is arranged on the stirring tank 304, the hydraulic rod 704 is fixedly connected with the sealing plate 703, the sealing plate 703 is abutted against the rotating shaft 403, when the hydraulic rod 704 drives the sealing plate 703 to slide into the stirring tank 304, the sealing plate 703 can be separated from the rotating shaft 403, a liquid discharge groove 701 is arranged in the stirring tank 304, after the sealing plate 703 slides into the stirring tank 304, mixed liquid can be discharged into the liquid mixing tank 203 through the liquid discharge groove 701, and the bottom end of the stirring tank 304 is in an inclined plane, so that the liquid can be discharged cleanly; when the liquid is discharged, the scraper 405 is arranged at the end part of the connecting rod 404, and the connecting rod 404 drives the scraper 405 to rotate, so that the scraper 405 can discharge the liquid attached to the inner wall of the stirring tank 304.

Specifically, the liquid storage mechanism 2 comprises a liquid mixing tank 203, the stirring tank 304 is connected with the liquid mixing tank 203 in a matched manner, a liquid discharge pipe 201 and a water injection pipe 204 are fixedly arranged on the liquid mixing tank 203, and a plurality of support rods 202 are fixedly connected to the liquid mixing tank 203 at equal intervals.

Specifically, the supporting mechanism 1 comprises a base 101, the supporting rods 202, the liquid mixing tank 203 and the base 101 are fixedly connected, two supporting frames 102 are symmetrically arranged on the base 101, universal wheels 103 are fixedly arranged on the supporting frames 102, the supporting mechanism 1 further comprises an oxygen tank 104, the base 101 is fixedly provided with the oxygen tank 104, and the oxygen tank 104 is communicated with a stirring tank 304 through an oxygen supply pipe 105.

Specifically, the mixing mechanism 6 includes the tooth piece 605, the meshing has the tooth piece 605 on the pivot 403, fixed connection between tooth piece 605 and the stock pole 601, fixed mounting has two sets of first bull stick 602 and second bull stick 604 on the stock pole 601, all fixedly connected with a plurality of puddler 603 on first bull stick 602 and the second bull stick 604, the mixing mechanism 6 still includes installation piece 606, rotate between stock pole 601 and the installation piece 606 and be connected, fixed connection between installation piece 606 and the mixed liquid jar 203, be cyclic annular equidistance cooperation rotation on the installation piece 606 and have ball 607, roll connection between ball 607 and the stock pole 601, start sealing mechanism 7, can make the raw materials after the stirring flow to stock solution mechanism 2 in, when rabbling mechanism 4 drives mixing mechanism 6 rotation, can make raw materials and water intensive mixing even, namely: the water injection pipe 204 is arranged on the mixed liquid tank 203, after water is injected into the mixed liquid tank 203, the mixed liquid can be mixed with the mixed liquid, the tooth block 605 is arranged at the bottom end of the rotating shaft 403 in a clamping way, the tooth block 605 is fixedly connected with the long rod 601, when the rotating shaft 403 rotates, the tooth block 605 can drive the long rod 601 to rotate, the end part of the long rod 601 is rotationally connected with the mounting block 606, the mounting block 606 is fixed at the bottom end of the mixed liquid tank 203, a plurality of balls 607 are rotationally matched with the mounting block 606 in an annular equidistant way, and when the long rod 601 rotates, the balls 607 can be driven to rotate, so that the rotating effect of the long rod 601 is improved; the first rotating rod 602 and the second rotating rod 604 are arranged on the long rod 601, the stirring rods 603 are fixed on the first rotating rod 602 and the second rotating rod 604, and when the long rod 601 drives the first rotating rod 602 and the second rotating rod 604 to rotate, the stirring rods 603 can stir water and mixed liquid in the liquid mixing tank 203, so that the mixing effect of the liquid is improved conveniently; when the liquid is required to be discharged, the control valve of the liquid discharge pipe 201 can be opened, and the liquid discharge pipe 201 is arranged on the mixed liquid tank 203, so that the liquid is conveniently discharged.

When the device is used, firstly, an operator adds water into a stirring tank 304, an electric heating wire 305 is installed in the stirring tank 304, after the electric heating wire 305 heats water, the operator adds raw materials required by microorganism propagation into an upper hopper 301, a guide pipe 302 is fixedly installed on the upper hopper 301, the guide pipe 302 is communicated with the stirring tank 304, a mounting frame 303 is fixedly installed on the guide pipe 302, the mounting frame 303 is fixedly connected with the stirring tank 304, the raw materials are discharged into the stirring tank 304 through the guide pipe 302, a control switch of a motor 402 is turned on, the motor 402 is installed on a tank cover 8, the output end of the motor 402 is fixedly connected with a rotating shaft 403 through a coupler, when the motor 402 is started, the rotating shaft 403 drives a plurality of groups of connecting rods 404 to rotate, the connecting rods 404 stir and mix the heated water and the raw materials, and the arrangement of the electric heating wire 305 can improve the reaction efficiency; the stirring tank 304 is communicated with the oxygen tank 104 through the oxygen supply pipe 105, the oxygen tank 104 is arranged on the base 101, oxygen in the oxygen tank 104 is pumped into the stirring tank 304 through the oxygen supply pipe 105, after water is uniformly mixed, a control switch of the electric heating wire 305 is turned off, when the water temperature is cooled to a certain temperature, an operator can turn on the control switch of the hydraulic rod 704, the hydraulic rod 704 is arranged on the stirring tank 304, the hydraulic rod 704 is fixedly connected with the sealing plate 703, the sealing plate 703 is abutted against the rotating shaft 403, when the hydraulic rod 704 drives the sealing plate 703 to slide into the stirring tank 304, the sealing plate 703 can be separated from the rotating shaft 403, a liquid discharge groove 701 is arranged in the stirring tank 304, after the sealing plate 703 slides into the stirring tank 304, mixed liquid can be discharged into the liquid mixing tank 203 through the liquid discharge groove 701, and the bottom end of the stirring tank 304 is in an inclined plane, so that the liquid can be discharged cleanly; when liquid is discharged, as the scraper 405 is arranged at the end part of the connecting rod 404, the connecting rod 404 drives the scraper 405 to rotate, so that the scraper 405 can discharge the liquid attached to the inner wall of the stirring tank 304;

the water injection pipe 204 is arranged on the mixed liquid tank 203, after water is injected into the mixed liquid tank 203, the mixed liquid can be mixed with the mixed liquid, the tooth block 605 is arranged at the bottom end of the rotating shaft 403 in a clamping way, the tooth block 605 is fixedly connected with the long rod 601, when the rotating shaft 403 rotates, the tooth block 605 can drive the long rod 601 to rotate, the end part of the long rod 601 is rotationally connected with the mounting block 606, the mounting block 606 is fixed at the bottom end of the mixed liquid tank 203, a plurality of balls 607 are rotationally matched with the mounting block 606 in an annular equidistant way, and when the long rod 601 rotates, the balls 607 can be driven to rotate, so that the rotating effect of the long rod 601 is improved; the first rotating rod 602 and the second rotating rod 604 are arranged on the long rod 601, the stirring rods 603 are fixed on the first rotating rod 602 and the second rotating rod 604, and when the long rod 601 drives the first rotating rod 602 and the second rotating rod 604 to rotate, the stirring rods 603 can stir water and mixed liquid in the liquid mixing tank 203, so that the mixing effect of the liquid is improved conveniently; when the liquid is required to be discharged, a control valve of the liquid discharge pipe 201 can be opened, and the liquid discharge pipe 201 is arranged on the mixed liquid tank 203, so that the liquid is conveniently discharged;

when needs are cleared up to agitator tank 304 inside, can use tool rotation locating lever 501, threaded connection between locating lever 501 and the slide bar 502, when locating lever 501 rotates in cover 8, can make slide bar 502 slide in cover 8, the tip of slide bar 502 is the inclined plane setting, slide bar 502 is contradicted to gyro wheel 503, rotate between gyro wheel 503 and the support bar 506 and be connected, install connecting axle 504 on the support bar 506, connect torsional spring 505 on the connecting axle 504, support bar 506 passes through torsional spring 505 and cover 8 cooperation connection, when slide bar 502 slides to the direction that is close to locating lever 501, can make slide bar 502 and gyro wheel 503 separate, and then make support bar 506 reset under the reaction force of torsional spring 505, and then make support bar 506 tip change into with connecting block 306 separation by the state of contradicting with connecting block 306, be equipped with empty slot 307 on the connecting block 306, when support bar 506 rotates at empty slot 307 position, can make it drive gyro wheel 503 rotatory, the connecting block 306 is installed on agitator tank 304, when connecting block 306 and support bar 506 separate, the operation personnel can take off cover 8, and then be convenient for make agitator tank 304 be in the open state of being convenient for the inside of agitator tank 304, thereby the operation personnel is in the clearance to the inside.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. The efficient reaction structure of the soil microorganism culture expansion device is characterized by comprising a supporting mechanism (1), wherein a liquid storage mechanism (2) is arranged on the supporting mechanism (1); a feeding mechanism (3) is arranged on the liquid storage mechanism (2); a tank cover (8) is clamped on the feeding mechanism (3); a positioning mechanism (5) is rotated on the tank cover (8); a stirring mechanism (4) is arranged on the tank cover (8); the stirring mechanism (4) is connected with the mixing mechanism (6) in a matched manner; a sealing mechanism (7) is arranged on the stirring mechanism (4); the sealing mechanism (7) is connected with the feeding mechanism (3) in a matched manner;

positioning mechanism (5) are including locating lever (501), rotate on cover (8) and be connected with locating lever (501), threaded connection has slide bar (502) on locating lever (501), sliding connection between slide bar (502) and cover (8), it has gyro wheel (503) to contradict on slide bar (502), rotate between gyro wheel (503) and supporting pole (506) and be connected, fixed mounting has even axle (504) on supporting pole (506), rotate between even axle (504) and cover (8) and be connected, just connecting to cup joint torsional spring (505) on axle (504), supporting pole (506) are connected through torsional spring (505) and cover (8) cooperation, the tip and the feed mechanism (3) of supporting pole (506) between the cooperation be connected.

2. The efficient reaction structure of the soil microorganism culture device according to claim 1, wherein: the feeding mechanism (3) comprises a connecting block (306), the supporting rod (506) is in contact with the connecting block (306), an empty groove (307) is formed in the connecting block (306), and the supporting rod (506) is matched with the empty groove (307) in rotation.

3. The efficient reaction structure of the soil microorganism culture device according to claim 2, wherein: feed mechanism (3) still include agitator tank (304), two fixed connection between connecting block (306) all and agitator tank (304), electric heating wire (305) are installed to cooperation on agitator tank (304), the intercommunication has pipe (302) on agitator tank (304), fixed mounting has hopper (301) on pipe (302), agitator tank (304) are connected with pipe (302) cooperation through mounting bracket (303).

4. A highly efficient reaction structure of a soil microorganism culture device according to claim 3, wherein: the stirring mechanism (4) comprises a fixed block (401), the fixed block (401) is fixedly installed on the tank cover (8), a motor (402) is installed on the tank cover (8), the output end of the motor (402) is fixedly connected with a rotating shaft (403) through a coupler, a plurality of groups of connecting rods (404) are fixedly connected to the rotating shaft (403) at equal intervals in an annular mode, the connecting rods (404) are fixedly connected with a scraping plate (405), and the scraping plate (405) is rotationally connected with the stirring tank (304).

5. The efficient reaction structure of the soil microorganism culture device according to claim 4, wherein: sealing mechanism (7) are including arranging cistern (701), be equipped with on agitator tank (304) and arrange cistern (701), it has closing plate (703) to arrange cistern (701) position cooperation slip, it has sealing pad (702) to bond on closing plate (703), sliding connection between sealing pad (702) and agitator tank (304), fixed connection between closing plate (703) and hydraulic rod (704), cooperation connection between hydraulic rod (704) and agitator tank (304).

6. A highly efficient reaction structure of a soil microorganism culture device according to claim 3, wherein: the liquid storage mechanism (2) comprises a liquid mixing tank (203), the stirring tank (304) is connected with the liquid mixing tank (203) in a matched mode, a liquid discharge pipe (201) and a water injection pipe (204) are fixedly installed on the liquid mixing tank (203), and a plurality of supporting rods (202) are fixedly connected to the liquid mixing tank (203) at equal intervals.

7. The efficient reaction structure of the soil microorganism culture device of claim 6, wherein: the supporting mechanism (1) comprises a base (101), the supporting rods (202) and the liquid mixing tank (203) are fixedly connected with the base (101), two supporting frames (102) are symmetrically arranged on the base (101), and universal wheels (103) are fixedly arranged on the supporting frames (102).

8. The efficient reaction structure of the soil microorganism culture device of claim 7, wherein: the supporting mechanism (1) further comprises an oxygen tank (104), the oxygen tank (104) is fixedly installed on the base (101), and the oxygen tank (104) is communicated with the stirring tank (304) through an oxygen supply pipe (105).

9. The efficient reaction structure of the soil microorganism culture device according to claim 4, wherein: the mixing mechanism (6) comprises a tooth block (605), the tooth block (605) is meshed on the rotating shaft (403), the tooth block (605) is fixedly connected with a long rod (601), two groups of first rotating rods (602) and second rotating rods (604) are fixedly installed on the long rod (601), and a plurality of stirring rods (603) are fixedly connected to the first rotating rods (602) and the second rotating rods (604).

10. The efficient reaction structure of the soil microorganism culture device of claim 9, wherein: the mixing mechanism (6) further comprises a mounting block (606), the long rod (601) is rotationally connected with the mounting block (606), the mounting block (606) is fixedly connected with the mixing tank (203), balls (607) are arranged on the mounting block (606) in an annular equidistant matching mode, and the balls (607) are in rolling connection with the long rod (601).