CN113278496A - Oxygen consumption type fermentation tank device - Google Patents

Abstract

The invention relates to a fermentation device, in particular to an oxygen-consuming fermentation tank device, which comprises an oxygen-consuming water-conveying material-turning mechanism, a fermentation tank mechanism, a power switching mechanism and a fermentation liquor adding mechanism, wherein the device can complete mixing and accelerated pressurized conveying of two fermentation stock solutions, can synchronously input and mix the fermentation liquor and air and complete mixing of the fermentation product, the fermentation liquor and the air, can independently turn over the fermentation product, can completely discharge the fermentation product, the oxygen-consuming water-conveying material-turning mechanism is connected with the fermentation tank mechanism, the fermentation tank mechanism is connected with the power switching mechanism, and the fermentation tank mechanism is connected with the fermentation liquor adding mechanism.

Description

Oxygen consumption type fermentation tank device

Technical Field

The invention relates to a fermentation device, in particular to an oxygen-consuming fermentation tank device.

Background

In the fermentation field, the fermentation means commonly used has oxygen consumption type and anaerobism type, traditional oxygen consumption type fermenting installation, when fermenting the subject matter, the input of oxygen and zymotic fluid need the drainage respectively, it inputs to be equipped with solitary power, and stir the in-process, cause zymotic fluid and zymotic fluid inhomogeneous mixing easily, the phenomenon of asynchronous appears in the fermentation process that can cause the zymotic fluid like this, and often clean inadequately to the emission of zymotic fluid, influence going on of fermentation next time easily, so designed an oxygen consumption type fermentation tank device.

Disclosure of Invention

The invention mainly solves the technical problem of providing an oxygen-consuming fermentation tank device, which can complete the mixing and accelerated pressurized conveying of two fermentation stock solutions, can synchronously input mixed fermentation liquor and air and complete the mixing of fermentation products, the fermentation liquor and the air, can independently turn over the fermentation products, and can thoroughly discharge the fermentation products.

In order to solve the technical problems, the invention relates to a fermentation device, in particular to an oxygen-consuming fermentation tank device which comprises an oxygen-consuming water conveying and turning mechanism, a fermentation tank mechanism, a power switching mechanism and a fermentation liquor adding mechanism, wherein the device can complete mixing and accelerated pressurized conveying of two fermentation stock solutions, can synchronously input and mix the fermentation liquor and air and complete mixing of a fermented product, the fermentation liquor and the air, can independently turn the fermented product, and can thoroughly discharge the fermented product.

The oxygen-consuming water-conveying stirring mechanism is connected with the fermentation tank mechanism, the fermentation tank mechanism is connected with the power switching mechanism, and the fermentation tank mechanism is connected with the fermentation liquor adding mechanism.

As a further optimization of the technical scheme, the oxygen-consuming water delivery stirring mechanism of the oxygen-consuming fermentation tank device comprises a liquid inlet pipe, a gas-liquid integrated tank, an input pipe, a pressure change tank, a pulley seat, a pulley with a shaft, an impeller, a slide bar, a spring, a reinforcing rod, an L-shaped output pipe, a communication pipe, a rotary hollow shaft, a rotary support shaft, a dispersion disc, an ejection pipe, a stirring wheel, a filter element embedding groove, an air inlet pipe, a filter element with a handle, an air inlet seat, an air inlet cavity, a partition plate, a liquid inlet cavity, an input one-way valve, a pressure change cavity, a piston, an output one-way valve, a switching cavity, a light hole I and a switching chute, wherein the liquid inlet pipe is arranged on the gas-liquid integrated tank, the two input pipes are symmetrically connected on the lower end face of the gas-liquid integrated tank, the input pipe is connected with the pressure change tank, the pulley seat is rotatably connected with the pulley with the shaft, and the pulley with the impeller, the pulley seat is connected with the sliding rod, the spring is sleeved on the sliding rod, two ends of the spring are respectively connected with the pulley seat and the pressure change box, the reinforcing rod is connected with the pressure change box, the L-shaped output pipe is connected with the change box, the L-shaped output pipe penetrates through the upper end face of the belt rotating support shaft and then penetrates out from the side face, the L-shaped output pipe is connected with the belt rotating support shaft, the L-shaped output pipe is connected and communicated with a communication pipe, the communication pipe is rotatably connected and communicated with a rotating hollow shaft, the rotating hollow shaft is rotatably connected with the belt rotating support shaft, the rotating hollow shaft is connected and communicated with a dispersion disc, the dispersion disc is connected and communicated with an ejection pipe, a stirring wheel is rotatably connected with the belt rotating support shaft, the filter element with a handle is slidably connected in a filter element embedding groove, the filter element embedding groove is arranged on the air inlet seat, an air inlet is arranged on the air inlet seat, the air inlet is communicated with an air inlet pipe, the air inlet seat is connected with the air inlet pipe, and the air inlet pipe is connected with the gas-liquid integrated box, the gas-liquid integrated box is divided into two cavities, namely a gas inlet cavity and a liquid inlet cavity, by a partition plate, the gas inlet cavity and the liquid inlet cavity are communicated with an input pipe, an input one-way valve is arranged in the input pipe, a pressure change cavity is arranged in the pressure change box and is communicated with the input pipe, the pressure change cavity is communicated with an L-shaped output pipe, a piston is connected with a sliding rod, the piston and the sliding rod are both in sliding connection with the pressure change cavity, an output one-way valve is arranged in the L-shaped output pipe, a switching cavity, a light hole and a switching chute are arranged on a belt rotating support shaft, a light hole I is arranged on a stirring wheel, the light hole is communicated with the switching cavity, and the switching cavity is communicated with the switching chute.

As a further optimization of the technical scheme, the fermentation tank mechanism of the oxygen consumption type fermentation tank device comprises a base, an auxiliary support, a discharge channel, a gate, a cylinder rod, a cylinder support, a cylinder, an auxiliary material supplement feed hopper, an external gear ring threaded sleeve, a bulge, a fixed connecting pipe, a pipe support, an axial long gear, a bearing seat, a coupling, a servo motor, a fermentation tank body with support legs and a communication port, wherein the base is connected with the auxiliary support, the auxiliary support is communicated with the discharge channel, the discharge channel is communicated with the communication port, the communication port is arranged on the fermentation tank body with support legs, the fermentation tank body with support legs is connected with the discharge channel, the discharge channel is connected with the gate in a sliding manner, the gate is connected with the cylinder rod, the cylinder rod is connected with the cylinder, the cylinder support is connected with the fermentation tank body with support legs, the auxiliary material supplement feed hopper is connected with and communicated with the fermentation tank body with support legs, outband ring gear thread bush and area landing leg fermentation cylinder body threaded connection, outband ring gear thread bush is sheathe in and is equipped with the bellying, fixedly connected pipe one end is connected with the feed liquor pipe rotation, fixedly connected pipe links to each other with the pipe brace, the pipe brace links to each other with area landing leg fermentation cylinder body, take the axle length gear and mesh mutually with outband ring gear thread bush, the bearing frame is connected with the rotation of taking the axle length gear, the bearing frame links to each other with area landing leg fermentation cylinder body, take the axle length gear to pass through the shaft coupling with servo motor and link to each other, servo motor links to each other with area landing leg fermentation cylinder body, take the rotation back shaft to rotate with area landing leg fermentation cylinder body and be connected, take axle pulley and outband area landing leg ring gear thread bush to contact, the dispersion impeller outward flange and take landing leg fermentation cylinder body friction connection.

As a further optimization of the technical scheme, the power switching mechanism of the oxygen consumption type fermentation tank device comprises a switching sliding disc, a switching rod, a reset spring, a shaft with a bulge, a switching pulley, a switching seat with a threaded hole, a switching disc, a shaft with a bulge I, a stepped shaft, a coupling I, a driving motor, a bearing seat I, a slide rail seat, a lead screw, a matching groove, a coupling II and a servo motor I, wherein the switching sliding disc is connected with the switching rod, the switching sliding disc is connected with a switching cavity in a sliding way, the switching rod is connected with a light hole in a sliding way, the reset spring is sleeved on the shaft with the bulge, the reset spring is arranged in the switching cavity, two ends of the reset spring are respectively connected on the shaft with a rotation support and the switching sliding disc, the shaft with the bulge is connected with the switching sliding groove in a sliding way, the switching sliding disc is connected with the shaft with the bulge, the switching pulley is connected with the switching seat with the threaded hole in a sliding way, switching pulley contacts with switching dish, it links to each other with taking the bellying axle to switch the dish, it all is equipped with the cooperation groove with taking the bellying epaxial to switch the dish, take bellying I sliding connection in the cooperation inslot, take bellying I to link to each other with the step shaft, the step shaft passes through shaft coupling I with driving motor and links to each other, the step shaft rotates with bearing frame I to be connected, bearing frame I links to each other with the base, be equipped with the slide rail seat on the bearing frame I up end, the lead screw rotates to be connected on bearing frame I and slide rail seat, the lead screw switches a threaded connection with threaded hole, the lead screw passes through shaft coupling II with servo motor I and links to each other, servo motor I links to each other with bearing frame I, driving motor links to each other with bearing frame I.

As a further optimization of the technical scheme, the fermentation liquor adding mechanism of the oxygen consumption type fermentation tank device comprises a mixing conveying box, a mixed liquor output pipe, a rotating shaft, a bearing seat II, an abrasion-resistant plate, a cam with a shaft, a stock solution inlet pipe, a stock solution box, a replenishing pipe, a stock solution box output pipe, a belt pulley, a motor pulley, a cam driving motor, a reset spring, a piston rod, a piston I, a rack, a pressure change cavity I, a stirring impeller, a stock solution baffle plate, a stock solution cavity, a gear, a spraying one-way valve and a stock solution input one-way valve, wherein the mixing conveying box is connected and communicated with the mixed liquor output pipe, the rotating shaft is rotatably connected with the mixing conveying box, the mixed liquor output pipe is connected and communicated with the bearing seat II, the abrasion-resistant plate is in contact with the cam with the shaft, the cam with the bearing seat II is rotatably connected, the mixed liquor output pipe is connected and communicated with the stock solution inlet pipe, two replenishing pipes are symmetrically arranged on the stock solution box, two stock solution tank output pipes are symmetrically arranged on the stock solution tank, the stock solution tank output pipes are communicated with a stock solution inlet pipe, a belt pulley is connected with a cam with a shaft, the belt pulley is connected with a belt in a friction way, the belt is connected with a motor belt pulley in a friction way, the motor belt pulley is connected with a cam driving motor, a mixing conveying tank, the stock solution tank and the cam driving motor are connected with a base, a reset spring is sleeved on a piston rod, the piston rod is connected with a piston I, the piston rod and the piston I are both connected with a pressure change cavity I in a sliding way, the pressure change cavity I is arranged in the mixing conveying tank, two ends of the reset spring are respectively connected with a wear-resisting plate and the mixing conveying tank, two racks are symmetrically arranged on the piston I, the racks are connected with a gear, the gear is symmetrically arranged on a rotating shaft, a stirring impeller is arranged at the middle position of the rotating shaft, the stock solution baffle divides the stock solution tank into two stock solution cavities with equal sizes, and a spraying one-way valve is arranged in the mixing outlet pipe, the stock solution input one-way valve is arranged in the stock solution inlet pipe, and the fixed connecting pipe is connected and communicated with the mixed solution output pipe.

As a further optimization of the technical scheme, the number of the unthreaded holes and the number of the unthreaded holes I are equal, the unthreaded holes I are equal in size, and the hole positions correspond to each other.

As a further optimization of the technical scheme, the height of the upper end surface of the impeller of the oxygen consumption type fermentation tank device is lower than that of the lower end surface of the bulge part.

As a further optimization of the technical scheme, the wear-resistant plate of the oxygen consumption type fermentation tank device is made of ZGMn 13-4.

As a further optimization of the technical scheme, the width of the stirring impeller of the oxygen-consuming fermentation tank device is smaller than the distance between the inner diameter vertical tangents of the two adjacent stock solutions entering pipes.

The oxygen consumption type fermentation tank device has the beneficial effects that:

the oxygen consumption type fermentation tank device can complete mixing and accelerated pressurized conveying of two fermentation stock solutions, can synchronously input mixed fermentation liquor and air and complete mixing of fermentation products, the fermentation liquor and the air, can independently turn over the fermentation products, and can thoroughly discharge the fermentation products.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic structural diagram of an oxygen-consuming fermenter according to the present invention.

FIG. 2 is a schematic structural diagram of an oxygen-consuming fermenter according to the present invention.

FIG. 3 is a third schematic structural view of an oxygen-consuming fermenter according to the present invention.

Fig. 4 is a first structural schematic diagram of an oxygen-consuming water-feeding and turning mechanism 1 of an oxygen-consuming fermenter device according to the present invention.

Fig. 5 is a second structural schematic diagram of the oxygen-consuming water-feeding and turning mechanism 1 of the oxygen-consuming fermenter device according to the present invention.

FIG. 6 is a first schematic view of the fermenter structure 2 of the oxygen-consuming fermenter installation according to the invention.

FIG. 7 is a second schematic structural view of a fermenter structure 2 of an oxygen-consuming fermenter installation according to the invention.

FIG. 8 is a third schematic view of the configuration of the fermenter structure 2 of the oxygen-consuming fermenter installation according to the invention.

FIG. 9 is a fourth schematic view of the fermenter structure 2 of the oxygen-consuming fermenter installation according to the invention.

FIG. 10 is a first schematic structural diagram of a power switching mechanism 3 of an oxygen-consuming fermenter according to the present invention.

FIG. 11 is a second schematic structural diagram of the power switching mechanism 3 of the oxygen-consuming fermenter according to the present invention.

FIG. 12 is a first schematic structural diagram of a fermentation broth adding mechanism 4 of an oxygen-consuming fermenter according to the present invention.

FIG. 13 is a second schematic structural view of a fermentation broth adding mechanism 4 of an oxygen-consuming fermenter according to the present invention.

FIG. 14 is a third schematic structural view of a fermentation broth adding mechanism 4 of an oxygen-consuming fermenter according to the present invention.

FIG. 15 is a fourth schematic structural view of a fermentation broth adding mechanism 4 of an oxygen-consuming fermenter according to the present invention.

FIG. 16 is a fifth schematic structural view of a fermentation broth adding mechanism 4 of an oxygen-consuming fermenter according to the present invention.

FIG. 17 is a sixth schematic view of the structure of the fermentation broth adding mechanism 4 of the oxygen-consuming fermenter according to the present invention.

In the figure: an oxygen-consuming water-conveying material-turning mechanism 1; a liquid inlet pipe 1-1; a gas-liquid integrated tank 1-2; 1-3 of an input pipe; 1-4 of a pressure change box; 1-5 pulley seats; pulley 1-6 with shaft; 1-7 parts of an impeller; 1-8 slide bars; 1-9 parts of a spring; 1-10 parts of reinforcing rods; 1-11 parts of an L-shaped output pipe; 1-12 of the communicating pipe; rotating the hollow shaft 1-13; 1-14 with a rotary supporting shaft; 1-15 parts of a dispersion plate; an ejection pipe 1-16; 1-17 of a stirring wheel; filter element embedding grooves 1-18; air inlet pipes 1 to 19; 1-20 parts of a filter element with a handle; air inlets 1-21; 1-22 parts of an air inlet seat; air inlet chambers 1-23; 1-24 of a partition board; liquid inlet cavity 1-25; input check valves 1-26; pressure change chambers 1-27; pistons 1-28; output check valves 1-29; switching chambers 1-30; a light hole 1-31; light hole I1-32; switching chutes 1-33; a fermentation tank mechanism 2; a base 2-1; 2-2 of auxiliary support; a discharge passage 2-3; 2-4 of gates; 2-5 cylinder rods; 2-6 of cylinder support; 2-7 of a cylinder; an auxiliary material supplement feed hopper 2-8; 2-9 of thread bush with external gear ring; 2-10 parts of a convex part; a fixed connecting pipe 2-11; 2-12 parts of a pipe support; long gear 2-13 with shaft; bearing seats 2-14; 2-15 parts of a coupler; 2-16 of servo motor; 2-17 of a fermentation tank body with supporting legs; 2-18 of a communication port; a power switching mechanism 3; switching the sliding disk 3-1; a switching lever 3-2; 3-3 of a return spring; 3-4 of a shaft with a bulge; switching pulleys 3-5; a switching seat 3-6 with a threaded hole; switching disks 3-7; a shaft I3-8 with a bulge; 3-9 parts of a stepped shaft; a coupler I3-10; driving motors 3-11; bearing seat I3-12; 3-13 parts of a slide rail seat; 3-14 parts of a lead screw; 3-15 of a matching groove; a coupler II 3-16; a servo motor I3-17; a fermentation liquor adding mechanism 4; a mixing and conveying box 4-1; a mixed liquid output pipe 4-2; 4-3 of a rotating shaft; bearing seat II 4-4; 4-5 of a wear-resisting plate; 4-6 of cam with shaft; the stock solution enters a pipe 4-7; 4-8 parts of stock solution box; 4-9 parts of a supplementary pipe; 4-10 parts of a stock solution tank output pipe; 4-11 of belt pulleys; 4-12 parts of a belt; 4-13 of a motor belt pulley; a cam drive motor 4-14; 4-15 parts of a return spring; a piston rod 4-16; piston I4-17; racks 4-18; a pressure change chamber I4-19; 4-20 parts of stirring impeller; 4-21 parts of stock solution partition plate; 4-22 parts of stock solution cavity; gears 4-23; 4-24 parts of a jet check valve; the stock solution is input into a one-way valve 4-25.

Detailed Description

The first embodiment is as follows:

the present invention relates to a fermentation apparatus, and more particularly to an oxygen-consuming fermentation tank apparatus, which includes an oxygen-consuming water-transporting and material-stirring mechanism 1, a fermentation tank mechanism 2, a power switching mechanism 3, and a fermentation liquid-feeding mechanism 4, and is capable of mixing two fermentation liquids and accelerating pressure-transporting, and simultaneously feeding mixed fermentation liquid and air and mixing the fermentation liquid, the fermentation liquid and the air, and turning over the fermentation product independently, and discharging the fermentation product completely.

The oxygen-consuming water-conveying stirring mechanism 1 is connected with the fermentation tank mechanism 2, the fermentation tank mechanism 2 is connected with the power switching mechanism 3, and the fermentation tank mechanism 2 is connected with the fermentation liquor adding mechanism 4.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 17, and the embodiment further describes the first embodiment, wherein the oxygen-consuming water-conveying material-overturning mechanism 1 comprises a liquid inlet pipe 1-1, a gas-liquid integrated tank 1-2, an input pipe 1-3, a pressure change tank 1-4, a pulley seat 1-5, a pulley with a shaft 1-6, an impeller 1-7, a slide rod 1-8, a spring 1-9, a reinforcing rod 1-10, an L-shaped output pipe 1-11, a communicating pipe 1-12, a hollow rotating shaft 1-13, a supporting shaft with a rotation 1-14, a dispersion disc 1-15, an ejection pipe 1-16, a stirring wheel 1-17, a filter element embedding groove 1-18, an air inlet pipe 1-19, a filter element with a handle 1-20, an air inlet 1-21, and an air inlet seat 1-22, 1-23 parts of air inlet cavity, 1-24 parts of partition plate, 1-25 parts of liquid inlet cavity, 1-26 parts of input one-way valve, 1-27 parts of pressure change cavity, 1-28 parts of piston, 1-29 parts of output one-way valve, 1-30 parts of switching cavity, 1-31 parts of light hole, I1-32 parts of light hole and 1-33 parts of switching chute, wherein the liquid inlet pipe 1-1 is arranged on the gas-liquid integrated box 1-2, the two input pipes 1-3 are symmetrically connected on the lower end surface of the gas-liquid integrated box 1-2, the input pipes 1-3 are connected with the pressure change box 1-4 parts, the pulley seat 1-5 is rotationally connected with the pulley 1-6 part with shaft, the pulley 1-6 part with shaft is connected with the impeller 1-7, the pulley seat 1-5 is connected with the slide bar 1-8 part of slide bar, the spring 1-9 is sleeved on the slide bar 1-8 part of slide bar, two ends of a spring 1-9 are respectively connected to a pulley seat 1-5 and a pressure change box 1-4, a reinforcing rod 1-10 is connected with the pressure change box 1-4, an L-shaped output pipe 1-11 is connected with the change box 1-4, the L-shaped output pipe 1-11 penetrates through the upper end face of a rotating support shaft 1-14 and then penetrates out from the side face, the L-shaped output pipe 1-11 is connected with the rotating support shaft 1-14, the L-shaped output pipe 1-11 is connected and communicated with a communicating pipe 1-12, the communicating pipe 1-12 is connected and communicated with a rotating hollow shaft 1-13, the rotating hollow shaft 1-13 is connected and communicated with the rotating support shaft 1-14, the rotating hollow shaft 1-13 is connected and communicated with a dispersion disc 1-15, the dispersion disc 1-15 is connected and communicated with an ejection pipe 1-16, the stirring wheel 1-17 is rotationally connected with a belt rotation supporting shaft 1-14, the filter element 1-20 with a handle is slidably connected in the filter element embedded groove 1-18, the filter element embedded groove 1-18 is arranged on the air inlet seat 1-22, the air inlet seat 1-22 is provided with an air inlet 1-21, the air inlet 1-21 is communicated with an air inlet pipe 1-19, the air inlet seat 1-22 is connected with an air inlet pipe 1-19, the air inlet pipe 1-19 is connected with a gas-liquid integrated box 1-2, the gas-liquid integrated box 1-2 is divided into two cavities of an air inlet cavity 1-23 and a liquid inlet cavity 1-25 by a clapboard 1-24, the air inlet cavity 1-23 and the liquid inlet cavity 1-25 are both communicated with an input pipe 1-3, an input one-way valve 1-26 is arranged in the input pipe 1-3, a pressure change cavity 1-27 is arranged in the pressure change box 1-4, the pressure change cavity 1-27 is communicated with the input pipe 1-3, the pressure change cavity 1-27 is communicated with the L-shaped output pipe 1-11, the piston 1-28 is connected with the slide bar 1-8, the piston 1-28 and the slide bar 1-8 are both connected with the pressure change cavity 1-27 in a sliding way, the output one-way valve 1-29 is arranged in the L-shaped output pipe 1-11, the switching cavity 1-30, the unthreaded hole 1-31 and the switching chute 1-33 are all arranged on the belt rotating support shaft 1-14, the unthreaded hole I1-32 is arranged on the stirring wheel 1-17, the unthreaded hole 1-31 is communicated with the switching cavity 1-30, the switching cavity 1-30 is communicated with the switching chute 1-33, the coupler I3-10 is driven to rotate by the operation of the driving motor 3-11, the coupler I3-10 drives the stepped shaft 3-9 to rotate, the stepped shaft 3-9 will drive the shaft I3-8 with the bulge to rotate, the shaft I3-8 with the bulge will drive the shaft 3-4 with the bulge to rotate, the shaft 3-4 with the bulge will drive the shaft 1-14 with the rotation to rotate, the shaft 1-14 with the rotation will drive the pressure change box 1-4 to rotate through the L-shaped output pipe 1-11, the pressure change box 1-4 will drive the pulley 1-6 with the shaft to move circularly, when the pulley 1-6 with the shaft rotates to the position of the bulge 2-10, will be squeezed by the bulge 2-10, the pulley 1-6 with the shaft will drive the piston 1-28 to pressurize the pressure change chamber 1-27 through the pulley seat 1-5 and the slide bar 1-8, thereby the fermentation liquid sucked in the pressure change chamber 1-27 or the pressurized air will be flushed to output the one-way valve 1-29 after flushing and input into the communicating pipe 1-12, then the mixture enters a dispersion plate 1-15 and is respectively sprayed out from a spraying pipe 1-16, when a pulley 1-6 with a shaft is separated from a convex part 2-10, a spring 1-9 can drive the pulley 1-6 with the shaft to reset, the pressure in a pressure change cavity 1-27 is reduced at the moment, an input one-way valve 1-26 is opened at the moment, liquid in a liquid inlet cavity 1-25 and gas in a clapboard 1-24 can respectively enter a pressure change cavity 1-27 corresponding to the liquid inlet cavity, thus air and fermentation liquor can be continuously sprayed out from the spraying pipe 1-16, raw materials and auxiliary materials needing to be fermented are added into a fermentation tank body 2-17 with supporting legs from an auxiliary material supplement feed hopper 2-8, the air and the fermentation liquor are sprayed out from the spraying pipe 1-16 and are input into the fermented materials, the height of the fermented materials is lower end surface of the dispersion plate 1-15, the dispersion discs 1-15 are driven to do circular motion when the rotary supporting shafts 1-14 rotate, the dispersion discs 1-15 can make the dispersion discs 1-15 self-rotate due to the friction force between the dispersion discs 1-15 and the inner walls of the fermentation tank bodies 2-17 with supporting legs when the dispersion discs 1-15 do circular motion, so that the dispersion discs 1-15 can keep the self-rotation synchronously with the dispersion discs 1-15 when the ejection pipes 1-16 do circular motion, the ejection pipes 1-16 can eject air filtered by the filter elements 1-20 with handles and mixed fermentation liquor, and the fermentation liquor, the air and the fermentation liquor are fully stirred, thereby improving the fermentation efficiency of the fermentation liquor, purifying the air outside the device, and simultaneously keeping the mixed fermentation liquor input into the liquid inlet cavities 1-25 in a uniform state all the time due to the rotation of the gas-liquid integrated box 1-2, in the process of circular motion, no matter whether the pulley 1-6 with the shaft is compressed or not, the pulley 1-6 with the shaft rotates due to the contact with the threaded sleeve 2-9 with the external gear ring or the bulge part 2-10 in the process of circular motion, the pulley 1-6 with the shaft drives the impeller 1-7 to rotate, and the rotation of the impeller 1-7 blows and cleans the garbage and dust possibly stored in the threaded sleeve 2-9 with the external gear ring, so that the garbage is prevented from being accumulated.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 17, and the embodiment further describes the first embodiment, wherein the fermentation tank mechanism 2 comprises a base 2-1, an auxiliary support 2-2, a discharge channel 2-3, a gate 2-4, a cylinder rod 2-5, a cylinder support 2-6, a cylinder 2-7, an auxiliary material supplement feed hopper 2-8, an external gear ring threaded sleeve 2-9, a convex part 2-10, a fixed connecting pipe 2-11, a pipe support 2-12, a long gear with a shaft 2-13, a bearing seat 2-14, a coupling 2-15, a servo motor 2-16, a fermentation tank body with support legs 2-17 and a communication port 2-18, the base 2-1 is connected with the auxiliary support 2-2, the auxiliary support 2-2 is communicated with the discharge channel 2-3, the discharge channel 2-3 is communicated with the communication port 2-18, the communication port 2-18 is arranged on a fermentation tank body 2-17 with legs, the fermentation tank body 2-17 with legs is connected with the discharge channel 2-3, the discharge channel 2-3 is connected with a gate 2-4 in a sliding way, the gate 2-4 is connected with a cylinder rod 2-5, the cylinder rod 2-5 is connected with a cylinder 2-7, the cylinder 2-7 is connected with a cylinder support 2-6, the cylinder support 2-6 is connected with the fermentation tank body 2-17 with legs, an auxiliary material supplement feed hopper 2-8 is connected and communicated with the fermentation tank body 2-17 with legs, an external gear ring thread sleeve 2-9 is connected with the fermentation tank body 2-17 with legs in a threaded way, and a bulge 2-10 is arranged on the external gear ring thread sleeve 2-9, one end of a fixed connecting pipe 2-11 is rotationally connected with a liquid inlet pipe 1-1, the fixed connecting pipe 2-11 is connected with a pipe support 2-12, the pipe support 2-12 is connected with a fermentation tank body 2-17 with supporting legs, a long gear 2-13 with a shaft is engaged with a threaded sleeve 2-9 with an external gear ring, a bearing seat 2-14 is rotationally connected with the long gear 2-13 with the shaft, a bearing seat 2-14 is connected with the fermentation tank body 2-17 with the supporting legs, the long gear 2-13 with the shaft is connected with a servo motor 2-16 through a coupling 2-15, the servo motor 2-16 is connected with the fermentation tank body 2-17 with the supporting legs, a supporting shaft 1-14 with the rotation is rotationally connected with the fermentation tank body 2-17 with the supporting legs, a pulley 1-6 with the shaft is contacted with the threaded sleeve 2-9 with the external gear ring, the outer edge of the dispersion disc 1-15 is in friction connection with the fermentation tank body 2-17 with the support legs, when fermentation liquor and air do not need to be added, the servo motor 2-16 can be operated to drive the long gear 2-13 with the shaft to rotate, the long gear 2-13 with the shaft can drive the threaded sleeve 2-9 with the external gear ring to rotate, the threaded sleeve 2-9 with the external gear ring can drive the threaded sleeve 2-9 with the external gear ring to rotate downwards through matching with the threads of the fermentation tank body 2-17 with the support legs, so that the pulley 1-6 with the shaft is separated from the threaded sleeve 2-9 with the external gear ring, the pulley 1-6 with the shaft cannot be compressed when rotating along with the support shaft 1-14 with the support legs, the fermentation liquor and the air are stopped to be added, only the operation of turning over the fermentation product is carried out, and at the moment, the auxiliary material supplement feed hopper 2-8 also enters a part of air, the air supplement can be used.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 17, and the embodiment further describes a first embodiment, the power switching mechanism 3 includes a switching sliding disk 3-1, a switching rod 3-2, a return spring 3-3, a shaft with a protrusion 3-4, a switching pulley 3-5, a switching seat with a threaded hole 3-6, a switching disk 3-7, a shaft with a protrusion I3-8, a stepped shaft 3-9, a coupling I3-10, a driving motor 3-11, a bearing seat I3-12, a sliding rail seat 3-13, a lead screw 3-14, a matching groove 3-15, a coupling II3-16, and a servo motor I3-17, the switching sliding disk 3-1 is connected with the switching rod 3-2, the switching sliding disk 3-1 is connected with a switching cavity 1-30 in a sliding manner, a switching rod 3-2 is connected with a unthreaded hole 1-31 in a sliding way, a return spring 3-3 is sleeved on a shaft with a lug boss 3-4, the return spring 3-3 is arranged in a switching cavity 1-30, two ends of the return spring 3-3 are respectively connected with a supporting shaft 1-14 with a rotating shaft and a switching sliding disk 3-1, the shaft with the lug boss 3-4 is connected with a switching chute 1-33 in a sliding way, the switching sliding disk 3-1 is connected with the shaft with the lug boss 3-4, a switching pulley 3-5 is connected with a switching seat 3-6 with a threaded hole in a rotating way, the switching seat 3-6 with the threaded hole is connected in a sliding way in a sliding rail seat 3-13, the switching pulley 3-5 is contacted with a switching disk 3-7, the switching disk 3-7 is connected with the shaft with the lug boss 3-4, matching grooves 3-15 are respectively arranged on the switching disk 3-7 and the shaft with the lug boss 3-4, the belt convex shaft I3-8 is connected in the matching groove 3-15 in a sliding way, the belt convex shaft I3-8 is connected with the stepped shaft 3-9, the stepped shaft 3-9 is connected with the driving motor 3-11 through the coupling I3-10, the stepped shaft 3-9 is connected with the bearing seat I3-12 in a rotating way, the bearing seat I3-12 is connected with the base 2-1, the upper end surface of the bearing seat I3-12 is provided with the sliding rail seat 3-13, the lead screw 3-14 is connected with the bearing seat I3-12 and the sliding rail seat 3-13 in a rotating way, the lead screw 3-14 is connected with the switching seat 3-6 with the threaded hole in a threaded way, the lead screw 3-14 is connected with the servo motor I3-17 through the coupling 387II 5-16, the servo motor I3-17 is connected with the bearing seat I3-12, the driving motor 3-11 is connected with the bearing seat I3-12, when fermentation products need to be discharged, the servo motor I3-17 operates to drive the coupler II3-16 to rotate, the coupler II3-16 drives the screw rod 3-14 to rotate, the screw rod 3-14 drives the switching seat 3-6 with the threaded hole to move downwards, the switching seat 3-6 with the threaded hole pushes the switching disc 3-7 downwards through the switching pulley 3-5, the switching disc 3-7 drives the shaft 3-4 with the boss to move downwards, the shaft 3-4 with the boss drives the switching sliding disc 3-1 to move downwards, the switching sliding disc 3-1 drives the switching rod 3-2 to move downwards to be inserted into the unthreaded hole I1-32, the rotating supporting shaft 1-14 with the rotation drives the switching rod 3-2 to transmit force to drive the stirring wheel 1-17 to rotate synchronously, the air cylinder 2-7 drives the air cylinder rod 2-5 to pull the gate 2-4 upwards, the rotation of the stirring wheel 1-17 throws the fermented products out of the discharge passage 2-3, so that the fermented products can be discharged cleanly.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, where the fermentation liquid adding mechanism 4 includes a mixing and conveying box 4-1, a mixing and outputting pipe 4-2, a rotating shaft 4-3, a bearing seat II4-4, a wear plate 4-5, a cam with a shaft 4-6, a raw liquid inlet pipe 4-7, a raw liquid box 4-8, a replenishing pipe 4-9, a raw liquid box outputting pipe 4-10, a belt pulley 4-11, a belt 4-12, a motor belt pulley 4-13, a cam driving motor 4-14, a return spring 4-15, a piston rod 4-16, a piston I4-17, a rack 4-18, a pressure changing chamber I4-19, a stirring impeller 4-20, a raw liquid partition plate 4-21, a raw liquid chamber 4-22, a mixing and outputting mechanism 4-8, A gear 4-23, an ejection one-way valve 4-24 and a stock solution input one-way valve 4-25, wherein the mixed conveying box 4-1 is connected and communicated with a mixed solution output pipe 4-2, a rotating shaft 4-3 is rotationally connected with the mixed conveying box 4-1, the mixed solution output pipe 4-2 is connected with a bearing seat II4-4, an abrasion-resistant plate 4-5 is contacted with a cam 4-6 with a shaft, the cam 4-6 with the shaft is rotationally connected with a bearing seat II4-4, the mixed solution output pipe 4-2 is connected and communicated with a stock solution inlet pipe 4-7, two replenishing pipes 4-9 are symmetrically arranged on the stock solution box 4-8, two stock solution box output pipes 4-10 are symmetrically arranged on the stock solution box 4-8, the stock solution box output pipes 4-10 are communicated with a stock solution inlet pipe 4-7, a belt pulley 4-11 is connected with the cam 4-6 with the shaft, the belt pulley 4-11 is in friction connection with the belt 4-12, the belt 4-12 is in friction connection with the motor pulley 4-13, the motor pulley 4-13 is connected with the cam driving motor 4-14, the mixed conveying box 4-1, the stock solution box 4-8 and the cam driving motor 4-14 are all connected with the base 2-1, the return spring 4-15 is sleeved on the piston rod 4-16, the piston rod 4-16 is connected with the piston I4-17, the piston rod 4-16 and the piston I4-17 are all in sliding connection with the pressure change cavity I4-19, the pressure change cavity I4-19 is arranged in the mixed conveying box 4-1, two ends of the return spring 4-15 are respectively connected with the wear-resisting plate 4-5 and the mixed conveying box 4-1, two racks 4-18 are symmetrically arranged on the piston I4-17, the rack 4-18 is connected with the gear 4-23, the gear 4-23 is symmetrically arranged on the rotating shaft 4-3, the stirring impeller 4-20 is arranged at the middle position of the rotating shaft 4-3, the stock solution baffle 4-21 divides the stock solution tank 4-8 into two stock solution cavities 4-22 with equal size, the spraying one-way valve 4-24 is arranged in the mixed solution output pipe 4-2, the stock solution input one-way valve 4-25 is arranged in the stock solution inlet pipe 4-7, the fixed connecting pipe 2-11 is connected and communicated with the mixed solution output pipe 4-2, the two supplementing pipes 4-9 are respectively externally connected with different fermentation stock solution supplementing pipes, so that the stock solution is always kept in the stock solution cavities 4-22 of the stock solution tank 4-8, the motor 4-14 is driven to rotate by the cam to drive the motor belt pulley 4-13, the motor belt pulley 4-13 drives the belt pulley 4-11 to rotate through the belt 4-12, the belt pulley 4-11 drives the belt shaft cam 4-6 to rotate, the belt shaft cam 4-6 drives the wear-resisting plate 4-5 to reciprocate up and down under the cooperation of the return spring 4-15, the wear-resisting plate 4-5 drives the piston I4-17 to reciprocate up and down through the piston rod 4-16, the piston I4-17 drives the rack 4-18 to reciprocate up and down, the rack 4-18 drives the gear 4-23 to reciprocate, the gear 4-23 drives the stirring impeller 4-20 to reciprocate through the rotating shaft 4-3, and when the piston I4-17 moves down, the pressure change cavity I4-19 is pressurized, so that two kinds of liquid sucked in the pressure change cavity I4-19 are pressurized and then flush the blowout check valve 4-19 after being pressurized 24 is then conveyed into the liquid inlet pipe 1-1 through the fixed connecting pipe 2-11, and at the moment, the downward movement of the rack 4-18 drives the gear 4-23 to rotate anticlockwise when seen from the cam driving motor 4-14 to the motor belt pulley 4-13, so as to drive the stirring impeller 4-20 to rotate anticlockwise, the rotation direction just plays a role in pushing and accelerating the liquid, so as to help the liquid to accelerate, so as to improve the kinetic energy of the liquid to the liquid inlet pipe 1-1 and also play a role in stirring, when the piston I4-17 is reset upwards, the pressure in the pressure change cavity I4-19 is reduced, the spraying one-way valve 4-24 is closed, the two raw liquid input one-way valves 4-25 are opened, so that the two raw liquids move into the mixed conveying box 4-1, and the stirring impeller 4-20 is matched with the suction pressure remained in the stage when the liquid is accelerated and the piston I4-17 is reset upwards The attraction force generated in the position attracts the two stock solutions entering from the input one-way valve 4-25 to the center of the stirring impeller 4-20, at the moment, the piston I4-17 is reset upwards, so that the rotation direction of the stirring impeller 4-20 is opposite to the flowing direction of the liquid, and the counter-flow stirring effect can be realized, so that the two stock solutions are rapidly mixed, and when the piston I4-17 moves downwards again, the liquid is accelerated and pressurized to be conveyed, so that the two stock solutions are continuously mixed and then conveyed into the liquid inlet pipe 1-1 and then enter the liquid inlet cavity 1-25.

The sixth specific implementation mode:

the following describes the present embodiment with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, where the number of the light holes 1 to 31 and the size of the light holes I1 to 32 are equal, and the hole positions correspond to each other.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, in which the height of the upper end surface of the impeller 1-7 is lower than the height of the lower end surface of the boss 2-10.

The specific implementation mode is eight:

the present embodiment is described below with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, where the wear-resistant plate 4-5 is made of ZGMn 13-4.

The specific implementation method nine:

in the following, the present embodiment is described with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, the width of the stirring impeller 4-20 is smaller than the distance between the vertical tangents of the inner diameter of the two adjacent raw liquid inlet pipes 4-7.

The working principle of the device is as follows: the device can complete mixing and accelerated pressurized conveying of two fermentation stock solutions, two replenishing pipes 4-9 are respectively externally connected with different fermentation stock solution replenishing pipes, so that stock solutions are always kept in stock solution cavities 4-22 of stock solution boxes 4-8, a motor belt pulley 4-13 is driven to rotate through the operation of a cam driving motor 4-14, the motor belt pulley 4-13 drives a belt pulley 4-11 to rotate through a belt 4-12, the belt pulley 4-11 drives a belt shaft cam 4-6 to rotate, the belt shaft cam 4-6 drives an abrasion-resistant plate 4-5 to reciprocate up and down under the cooperation of a return spring 4-15, the abrasion-resistant plate 4-5 drives a piston I4-17 to reciprocate up and down through a piston rod 4-16, and the piston I4-17 drives a rack 4-18 to reciprocate up and down, the gear rack 4-18 drives the gear 4-23 to rotate in a reciprocating way, the gear 4-23 drives the stirring impeller 4-20 to rotate in a reciprocating way through the rotating shaft 4-3, when the piston I4-17 moves downwards, the pressure change cavity I4-19 is pressurized, so that two kinds of liquid sucked in the pressure change cavity I4-19 are pressurized, then the two kinds of liquid are flushed and sprayed out of the one-way valve 4-24 and then are conveyed into the liquid inlet pipe 1-1 through the fixed connecting pipe 2-11, at the moment, the gear rack 4-18 moves downwards, the gear 4-23 is driven to rotate anticlockwise from the cam driving motor 4-14 to the motor belt pulley 4-13, so that the stirring impeller 4-20 is driven to rotate anticlockwise, the rotating direction just plays a role in pushing and accelerating the liquid, and the liquid is accelerated, when the piston I4-17 is reset upwards, the pressure in the pressure change cavity I4-19 is reduced, the ejecting one-way valve 4-24 is closed, the two stock solution input one-way valves 4-25 are opened, so that the two stock solutions move into the mixing and conveying box 4-1, and the stirring impeller 4-20 is positioned at the center of the stirring impeller 4-20 in cooperation with the suction force generated when the piston I4-17 is reset upwards when the liquid is accelerated, the two stock solutions entering from the input one-way valves 4-25 are sucked to the center of the stirring impeller 4-20, at the moment, because the piston I4-17 is reset upwards, the rotation direction of the stirring impeller 4-20 is opposite to the liquid flowing direction, so that the counter-flow stirring effect can be achieved, so that the two stock solutions are rapidly mixed, when the piston I4-17 moves downwards again, the liquid is accelerated and pressurized to be conveyed, and the two stock solutions are continuously mixed, conveyed into the liquid inlet pipe 1-1 and then enter the liquid inlet cavity 1-25; the device can synchronously input mixed fermentation liquor and air and complete the mixing of the fermentation product, the fermentation liquor and the air, the operation of a driving motor 3-11 drives a coupler I3-10 to rotate, the coupler I3-10 can drive a step shaft 3-9 to rotate, the step shaft 3-9 can drive a shaft I3-8 with a bulge to rotate, the shaft I3-8 with the bulge can drive a shaft 3-4 with the bulge to rotate, the shaft 3-4 with the bulge can drive a supporting shaft 1-14 with the rotation to rotate, the supporting shaft 1-14 with the rotation can drive a pressure change box 1-4 to rotate through an L-shaped output pipe 1-11, the pressure change box 1-4 can drive a pulley 1-6 with a shaft to do circular motion, when the pulley 1-6 with the shaft rotates to the position of the bulge 2-10, the pulley can be extruded by the bulge 2-10, the pulley 1-6 with shaft drives the piston 1-28 to pressurize the pressure change chamber 1-27 through the pulley seat 1-5 and the slide bar 1-8, thus the fermentation liquid or air sucked in the pressure change chamber 1-27 is pressurized and then rushes out the output one-way valve 1-29 to input into the communicating pipe 1-12, then the fermentation liquid or air is blown out from the blow-out pipe 1-16 after entering into the dispersion disc 1-15, when the pulley 1-6 with shaft is separated from the bulge 2-10, the spring 1-9 will drive the pulley 1-6 with shaft to reset, at this moment, the pressure in the pressure change chamber 1-27 is reduced, the input one-way valve 1-26 is opened at this moment, the liquid in the liquid inlet chamber 1-25 and the gas in the clapboard 1-24 will enter into the pressure change chamber 1-27 corresponding to them respectively, thus, air and fermentation liquor can be continuously sprayed out from the spraying pipes 1 to 16, raw materials and auxiliary materials to be fermented are added into the fermentation tank body 2 to 17 with the supporting legs from the auxiliary material supplement feed hopper 2 to 8, the air and the fermentation liquor are sprayed out from the spraying pipes 1 to 16 and input into the fermented product, the height of the fermented product is lower than the lower end surface of the dispersion disc 1 to 15, the dispersion disc 1 to 15 can be driven to do circular motion when the rotating support shaft 1 to 14 rotates, the dispersion disc 1 to 15 can be driven to do self-rotation when the dispersion disc 1 to 15 does circular motion due to the friction between the dispersion disc and the inner wall of the fermentation tank body 2 to 17 with the supporting legs, so that the dispersion disc 1 to 15 keeps performing self-rotation synchronously with the dispersion disc 1 to 15 when the spraying pipes 1 to 16 do circular motion with the dispersion disc 1 to 15, so that the air and the mixed fermentation liquor filtered by the filter element with the handle 1-20 are sprayed by the spraying pipe 1-16, and simultaneously the fermentation product, the air and the fermentation liquor are fully stirred, thereby improving the fermentation efficiency of the fermentation product, purifying the air outside the device, simultaneously leading the mixed fermentation liquor input into the liquid inlet cavity 1-25 to be always kept in a uniform state due to the rotation of the gas-liquid integrated box 1-2, leading the pulley with the shaft 1-6 to rotate by itself due to the contact with the threaded sleeve 2-9 with the external gear ring or the bulge part 2-10 in the circumferential motion process whether to be compressed or not in the circumferential motion process, leading the pulley with the shaft 1-6 to drive the impeller 1-7 to rotate, leading the impeller 1-7 to blow and clean the garbage and the dust possibly stored in the threaded sleeve 2-9 with the external gear ring by rotation, preventing the accumulation of garbage; the device can independently turn over the fermentation product, when fermentation liquor and air do not need to be added, the servo motor 2-16 can be operated to drive the long gear 2-13 with the shaft to rotate, the long gear 2-13 with the shaft can drive the threaded sleeve 2-9 with the external gear ring to rotate, the threaded sleeve 2-9 with the external gear ring can drive the threaded sleeve 2-9 with the external gear ring to rotate downwards through the thread matching with the fermentation tank body 2-17 with the supporting legs, so that the pulley 1-6 with the shaft is separated from the contact with the threaded sleeve 2-9 with the external gear ring, the pulley 1-6 with the shaft can not be compressed when rotating along with the supporting shaft 1-14 with the rotation, the fermentation liquor and the air are stopped to be added, the operation of turning over the fermentation product is only carried out, and the auxiliary material supplementing feed hopper 2-8 can also enter a part, the air supplement can be realized; the device can thoroughly discharge the fermented product, when the fermented product needs to be discharged, the servo motor I3-17 operates to drive the coupler II3-16 to rotate, the coupler II3-16 drives the lead screw 3-14 to rotate, the lead screw 3-14 drives the switching seat 3-6 with the threaded hole to move downwards, the switching seat 3-6 with the threaded hole can push the switching disk 3-7 downwards through the switching pulley 3-5, the switching disk 3-7 can drive the shaft 3-4 with the lug boss to move downwards, the shaft 3-4 with the lug boss can drive the switching sliding disk 3-1 to move downwards, the switching sliding disk 3-1 can drive the switching rod 3-2 to move downwards to be inserted into the unthreaded hole I1-32, and the force transmission of the switching rod 3-2 can be driven to drive the stirring wheel 1-17 to synchronously rotate when the supporting shaft 1-14 with the rotation rotates, at the moment, the cylinder 2-7 drives the cylinder rod 2-5 to pull the gate 2-4 upwards, and the stirring wheel 1-17 rotates to throw the fermented product out of the discharge channel 2-3, so that the fermented product can be discharged completely.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (9)

1. The utility model provides an consume oxygen type fermentation tank device, includes that consume oxygen water delivery stirring mechanism (1), fermentation cylinder mechanism (2), power switching mechanism (3), zymotic fluid add mechanism (4), its characterized in that: the oxygen-consuming water-conveying stirring mechanism (1) is connected with the fermentation tank mechanism (2), the fermentation tank mechanism (2) is connected with the power switching mechanism (3), and the fermentation tank mechanism (2) is connected with the fermentation liquor adding mechanism (4).

2. An oxygen-consuming fermenter according to claim 1, wherein: the oxygen-consuming water-conveying stirring mechanism (1) comprises a liquid inlet pipe (1-1), a gas-liquid integrated box (1-2), an input pipe (1-3), a pressure change box (1-4), a pulley seat (1-5), a pulley (1-6) with a shaft, an impeller (1-7), a sliding rod (1-8), a spring (1-9), a reinforcing rod (1-10), an L-shaped output pipe (1-11), a communicating pipe (1-12), a rotating hollow shaft (1-13), a rotating support shaft (1-14), a dispersion disc (1-15), an ejection pipe (1-16), a stirring wheel (1-17), a filter element embedded groove (1-18), an air inlet pipe (1-19), a filter element (1-20) with a handle, an air inlet (1-21), An air inlet seat (1-22), an air inlet cavity (1-23), a partition plate (1-24), a liquid inlet cavity (1-25), an input one-way valve (1-26), a pressure change cavity (1-27), a piston (1-28), an output one-way valve (1-29), a switching cavity (1-30), a light hole (1-31), a light hole I (1-32) and a switching chute (1-33), wherein the liquid inlet pipe (1-1) is arranged on a gas-liquid integrated box (1-2), two input pipes (1-3) are symmetrically connected on the lower end face of the gas-liquid integrated box (1-2), the input pipes (1-3) are connected with the pressure change box (1-4), a pulley seat (1-5) is rotationally connected with a pulley (1-6) with a shaft, the pulley (1-6) with the shaft is connected with an impeller (1-7), pulley seats (1-5) are connected with sliding rods (1-8), springs (1-9) are sleeved on the sliding rods (1-8), two ends of the springs (1-9) are respectively connected with the pulley seats (1-5) and pressure change boxes (1-4), reinforcing rods (1-10) are connected with the pressure change boxes (1-4), L-shaped output pipes (1-11) are connected with the change boxes (1-4), the L-shaped output pipes (1-11) penetrate through the upper end faces of rotating support shafts (1-14) and then penetrate out from the side faces, the L-shaped output pipes (1-11) are connected with the rotating support shafts (1-14), the L-shaped output pipes (1-11) are connected and communicated with communicating pipes (1-12), the communicating pipes (1-12) are connected and communicated with rotating hollow shafts (1-13) in a rotating mode, the rotary hollow shaft (1-13) is rotatably connected with a rotary supporting shaft (1-14), the rotary hollow shaft (1-13) is connected and communicated with a dispersion disc (1-15), the dispersion disc (1-15) is connected and communicated with a spraying pipe (1-16), a stirring wheel (1-17) is rotatably connected with the rotary supporting shaft (1-14), a filter element (1-20) with a handle is slidably connected in a filter element embedding groove (1-18), the filter element embedding groove (1-18) is arranged on an air inlet seat (1-22), the air inlet seat (1-22) is provided with an air inlet (1-21), the air inlet (1-21) is communicated with an air inlet pipe (1-19), the air inlet seat (1-22) is connected with the air inlet pipe (1-19), the air inlet pipe (1-19) is connected with a gas-liquid integrated box (1-2), the gas-liquid integrated box (1-2) is divided into two cavities of a gas inlet cavity (1-23) and a liquid inlet cavity (1-25) by a partition plate (1-24), the gas inlet cavity (1-23) and the liquid inlet cavity (1-25) are both communicated with an input pipe (1-3), an input one-way valve (1-26) is arranged in the input pipe (1-3), a pressure change cavity (1-27) is arranged in a pressure change box (1-4), the pressure change cavity (1-27) is communicated with the input pipe (1-3), the pressure change cavity (1-27) is communicated with an L-shaped output pipe (1-11), a piston (1-28) is connected with a sliding rod (1-8), and the piston (1-28) and the sliding rod (1-8) are both connected with the pressure change cavity (1-27) in a sliding manner, the output one-way valve (1-29) is arranged in the L-shaped output pipe (1-11), the switching cavity (1-30), the unthreaded hole (1-31) and the switching chute (1-33) are all arranged on the belt rotating support shaft (1-14), the unthreaded hole I (1-32) is arranged on the stirring wheel (1-17), the unthreaded hole (1-31) is communicated with the switching cavity (1-30), and the switching cavity (1-30) is communicated with the switching chute (1-33).

3. An oxygen-consuming fermenter according to claim 2, wherein: the fermentation tank mechanism (2) comprises a base (2-1), an auxiliary support (2-2), a discharge channel (2-3), a gate (2-4), a cylinder rod (2-5), a cylinder support (2-6), a cylinder (2-7), an auxiliary material supplement feed hopper (2-8), an external gear ring threaded sleeve (2-9), a protruding part (2-10), a fixed connecting pipe (2-11), a pipe support (2-12), a long gear with an axis (2-13), a bearing seat (2-14), a coupler (2-15), a servo motor (2-16), a fermentation tank body with supporting legs (2-17) and a communication port (2-18), wherein the base (2-1) is connected with the auxiliary support (2-2), the auxiliary support (2-2) is communicated with the discharge channel (2-3), the discharge channel (2-3) is communicated with the communication port (2-18), the communication port (2-18) is arranged on the fermentation tank body (2-17) with the support leg, the fermentation tank body (2-17) with the support leg is connected with the discharge channel (2-3), the discharge channel (2-3) is connected with the gate (2-4) in a sliding way, the gate (2-4) is connected with the cylinder rod (2-5), the cylinder rod (2-5) is connected with the cylinder (2-7), the cylinder (2-7) is connected with the cylinder support (2-6), the cylinder support (2-6) is connected with the fermentation tank body (2-17) with the support leg, the auxiliary material supplement feed hopper (2-8) is connected and communicated with the fermentation tank body (2-17) with the support leg, the screw thread sleeve (2-9) with the external gear ring is connected with the fermentation tank body (2-17) with the support leg by screw thread, a convex part (2-10) is arranged on the threaded sleeve (2-9) with the external gear ring, one end of a fixed connecting pipe (2-11) is rotationally connected with a liquid inlet pipe (1-1), the fixed connecting pipe (2-11) is connected with a pipe support (2-12), the pipe support (2-12) is connected with a fermentation tank body (2-17) with supporting legs, a long gear (2-13) with a shaft is meshed with the threaded sleeve (2-9) with the external gear ring, a bearing seat (2-14) is rotationally connected with the long gear (2-13) with the shaft, the bearing seat (2-14) is connected with the fermentation tank body (2-17) with the supporting legs, the long gear (2-13) with the shaft is connected with a servo motor (2-16) through a coupler (2-15), and the servo motor (2-16) is connected with the fermentation tank body (2-17) with the supporting legs, the fermentation tank body with the support legs (2-17) is rotatably connected with a rotary support shaft (1-14), pulleys (1-6) with shafts are contacted with threaded sleeves (2-9) with external gear rings, and the outer edges of the dispersion discs (1-15) are in friction connection with the fermentation tank body with the support legs (2-17).

4. An oxygen-consuming fermenter according to claim 3, wherein: the power switching mechanism (3) comprises a switching sliding disc (3-1), a switching rod (3-2), a reset spring (3-3), a shaft with a convex part (3-4), a switching pulley (3-5), a switching seat with a threaded hole (3-6), a switching disc (3-7), a shaft I with a convex part (3-8), a stepped shaft (3-9), a coupler I (3-10), a driving motor (3-11), a bearing seat I (3-12), a sliding rail seat (3-13), a lead screw (3-14), a matching groove (3-15), a coupler II (3-16) and a servo motor I (3-17), wherein the switching sliding disc (3-1) is connected with the switching rod (3-2), the switching sliding disc (3-1) is connected with a switching cavity (1-30) in a sliding manner, the switching rod (3-2) is connected with the unthreaded hole (1-31) in a sliding way, the reset spring (3-3) is sleeved on the shaft with the lug boss (3-4), the reset spring (3-3) is arranged in the switching cavity (1-30), two ends of the reset spring (3-3) are respectively connected with the shaft (1-14) with the rotating support and the switching sliding disk (3-1), the shaft with the lug boss (3-4) is connected with the switching chute (1-33) in a sliding way, the switching sliding disk (3-1) is connected with the shaft with the lug boss (3-4), the switching pulley (3-5) is connected with the switching seat (3-6) with the threaded hole in a rotating way, the switching seat (3-6) with the threaded hole is connected in the sliding rail seat (3-13) in a sliding way, the switching pulley (3-5) is contacted with the switching disk (3-7), the switching disc (3-7) is connected with the shaft with the bulge (3-4), the switching disc (3-7) and the shaft with the bulge (3-4) are respectively provided with a matching groove (3-15), the shaft I (3-8) with the bulge is connected in the matching groove (3-15) in a sliding way, the shaft I (3-8) with the bulge is connected with a step shaft (3-9), the step shaft (3-9) is connected with a driving motor (3-11) through a coupler I (3-10), the step shaft (3-9) is rotationally connected with a bearing seat I (3-12), the bearing seat I (3-12) is connected with a base (2-1), the upper end face of the bearing seat I (3-12) is provided with a sliding rail seat (3-13), a lead screw (3-14) is rotationally connected with the bearing seat I (3-12) and the sliding rail seat (3-13), the screw rod (3-14) is in threaded connection with the switching seat (3-6) with the threaded hole, the screw rod (3-14) is connected with the servo motor I (3-17) through the coupler II (3-16), the servo motor I (3-17) is connected with the bearing seat I (3-12), and the driving motor (3-11) is connected with the bearing seat I (3-12).

5. An oxygen-consuming fermenter according to claim 4, wherein: the fermentation liquor adding mechanism (4) comprises a mixing conveying box (4-1), a mixed liquor output pipe (4-2), a rotating shaft (4-3), a bearing seat II (4-4), an abrasion-resistant plate (4-5), a cam with a shaft (4-6), a stock solution inlet pipe (4-7), a stock solution box (4-8), a supplementing pipe (4-9), a stock solution box output pipe (4-10), a belt pulley (4-11), a belt (4-12), a motor belt pulley (4-13), a cam driving motor (4-14), a reset spring (4-15), a piston rod (4-16), a piston I (4-17), a rack (4-18), a pressure change cavity I (4-19), a stirring impeller (4-20), a stock solution partition plate (4-21), A stock solution cavity (4-22), gears (4-23), a spraying one-way valve (4-24) and a stock solution input one-way valve (4-25), wherein the mixed conveying box (4-1) is connected and communicated with a mixed solution output pipe (4-2), a rotating shaft (4-3) is rotationally connected with the mixed conveying box (4-1), the mixed solution output pipe (4-2) is connected and communicated with a bearing seat II (4-4), an abrasion-resistant plate (4-5) is contacted with a cam (4-6) with a shaft, the cam (4-6) with the shaft is rotationally connected with the bearing seat II (4-4), the mixed solution output pipe (4-2) is connected and communicated with a stock solution inlet pipe (4-7), two replenishing pipes (4-9) are symmetrically arranged on the stock solution box (4-8), two stock solution box output pipes (4-10) are symmetrically arranged on the stock solution box (4-8), the output pipe (4-10) of the stock solution tank is communicated with the stock solution inlet pipe (4-7), the belt pulley (4-11) is connected with the cam (4-6) with a shaft, the belt pulley (4-11) is connected with the belt (4-12) in a friction way, the belt (4-12) is connected with the motor belt pulley (4-13) in a friction way, the motor belt pulley (4-13) is connected with the cam driving motor (4-14), the mixed conveying tank (4-1), the stock solution tank (4-8) and the cam driving motor (4-14) are all connected with the base (2-1), the reset spring (4-15) is sleeved on the piston rod (4-16), the piston rod (4-16) is connected with the piston I (4-17), the piston rod (4-16) and the piston I (4-17) are all connected with the pressure change cavity I (4-19) in a sliding way, the pressure change cavity I (4-19) is arranged in the mixed conveying box (4-1), two ends of a return spring (4-15) are respectively connected to the wear-resisting plate (4-5) and the mixed conveying box (4-1), two racks (4-18) are symmetrically arranged on a piston I (4-17), the racks (4-18) are connected with gears (4-23), the gears (4-23) are symmetrically arranged on a rotating shaft (4-3), a stirring impeller (4-20) is arranged at the middle position of the rotating shaft (4-3), a stock solution partition plate (4-21) divides the stock solution box (4-8) into two stock solution cavities (4-22) with equal size, a spraying one-way valve (4-24) is arranged in a mixed solution output pipe (4-2), a stock solution input one-way valve (4-25) is arranged in a stock solution inlet pipe (4-7), the fixed connecting pipe (2-11) is connected and communicated with the mixed liquid output pipe (4-2).

6. An oxygen-consuming fermenter according to claim 2, wherein: the unthreaded holes (1-31) and the unthreaded holes I (1-32) are equal in number and size, and the hole positions are corresponding to each other.

7. An oxygen-consuming fermenter according to claim 3, wherein: the height of the upper end face of the impeller (1-7) is lower than that of the lower end face of the bulge part (2-10).

8. An oxygen-consuming fermenter according to claim 5, wherein: the wear-resisting plate (4-5) is made of ZGMn 13-4.

9. An oxygen-consuming fermenter according to claim 5, wherein: the width of the stirring impeller (4-20) is smaller than the distance between the vertical tangents of the inner diameters of the two adjacent stock solution inlet pipes (4-7).

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