CN111518676A - Production equipment for rapid fermentation and propagation of biological bacteria - Google Patents

Abstract

The invention belongs to the field of microbial fermentation, and particularly relates to production equipment for rapidly fermenting and propagating biological bacteria, which comprises a crushing box, a power box and a stirring box which are fixedly installed in sequence, wherein a lifting pipe is fixedly installed at the top of the power box, a communicated feeding pipe is fixedly installed at the top of the crushing box, a crushing seat is fixedly installed on the inner side wall of the crushing box, a rotating rod is fixedly installed on the inner wall of one side of the crushing box, a swinging plate is rotatably sleeved at the outer side of the rotating rod, and a plurality of crushing blocks which are arranged at equal intervals are fixedly installed at one side of the swinging plate, which is close to the crushing seat, respectively; the invention has the advantages of high automatic mechanization degree, simple operation, convenient use, liberation of manpower, reduction of processing cost, stronger practicability, accordance with the processing flow of modern production equipment and wide market popularization prospect in the process of producing biological bacteria.

Description

Production equipment for rapid fermentation and propagation of biological bacteria

Technical Field

The invention relates to the technical field of microbial fermentation, in particular to production equipment for rapidly fermenting and propagating biological bacteria.

Background

Microbial fermentation refers to the fermentation of microorganisms under appropriate conditions,subjecting the raw material to specific treatmentMetabolic pathwaysConversion to the desired product for humans. The level of microbial fermentation production depends mainly on the genetic characteristics of the strain itself and the culture conditions.

The microbial fermentation process is divided into aerobic fermentation and anaerobic fermentation according to the requirement of fermentation conditions. The aerobic fermentation method comprises liquid surface culture fermentation, fermentation on the surface of a porous or granular solid medium and oxygen-introducing submerged fermentation. The anaerobic fermentation adopts oxygen-free submerged fermentation. Thus, both aerobic and anaerobic fermentations can be carried out by submerged culture, which is carried out in a cylindrical fermenter having a fixed diameter height ratio.

At present, most of the production operation processes of microbial bacteria fermentation depend on manual operation, the manual operation efficiency is low, the manual processing cost is high, and the development prospect of modern social production is not provided, so that a production device for rapidly fermenting and propagating biological bacteria is provided for solving the problems.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides production equipment for rapidly fermenting and propagating biological bacteria.

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

the utility model provides a make production facility that biological fungus rapidly fermented breeds, includes fixed mounting's broken case, headstock and agitator tank in proper order, the top fixed mounting of headstock has the riser, the top fixed mounting of broken case has the inlet pipe that is linked together, fixed mounting has broken seat on the inside lateral wall of broken case, one side inner wall fixed mounting of broken case has the dwang, the outside of dwang is rotated the cover and is equipped with the swinging plate, the equal fixed mounting in one side that swinging plate and broken seat are close to each other has the broken piece that a plurality of equidistance were arranged, it is connected with the rotation axis to rotate on one side inner wall of broken case, fixed mounting has drive assembly on the rotation axis, the fixed cover of one end of rotation axis is equipped with the rolling disc, fixed mounting has the cam on one side central point of rolling disc, it is connected with the connecting rod to rotate on the cam, the one, the inner walls of two sides of the crushing box are fixedly provided with triangular plates, the crushing box is internally fixedly provided with a discharging component, one side of the crushing box is fixedly provided with a first discharging pipe, the discharging component is communicated with the first discharging pipe, the other end of the first discharging pipe extends into the lifting pipe, the lifting pipe is provided with a lifting component, one side of the lifting pipe is fixedly provided with a second discharging pipe which is communicated with the lifting pipe, one end of the second discharging pipe extends into the stirring box, the top of the stirring box is fixedly provided with a communicated liquid inlet pipe, the stirring box is respectively and rotatably connected with a first stirring shaft and two second stirring shafts, the first stirring shaft and the two second stirring shafts are fixedly connected with the same power component, the stirring box is internally and longitudinally and fixedly provided with a plurality of vertically arranged heating pipes, and one side of the stirring box is fixedly provided with a pressure pump, the bottom fixed mounting of agitator tank has the drain pipe that is linked together, be provided with the valve on the drain pipe.

Preferably, drive assembly establishes the first synchronizing wheel in the rotation axis outside including fixed cover, broken incasement fixed mounting has driving motor, fixed mounting has the second synchronizing wheel on driving motor's the output shaft, and the outside transmission of first synchronizing wheel and second synchronizing wheel is connected with same hold-in range, starts driving motor, can drive the rotation axis and rotate under the transmission of first synchronizing wheel and second synchronizing wheel, and the rotation axis can drive the rolling disc and rotate, and then can provide drive power to the rolling disc.

Preferably, fixed mounting has the drainage plate on the top inner wall of broken case, and the drainage plate is located the inlet pipe under, when the raw materials that will produce the biological agent through the inlet pipe drops into broken incasement, the raw materials can flow into between broken seat and the swing board through the drainage plate this moment, and then this drainage plate has the effect of carrying out the drainage to the raw materials.

Preferably, arrange the material subassembly and include the output tube of fixed mounting in two set-square bottoms, be provided with the first screw propulsion axle that rotates the installation in the output tube, and first screw propulsion axle and output tube looks adaptation, one side fixed mounting of broken case has the rotating electrical machines, the output shaft of rotating electrical machines extend to in the output tube and with the one end fixed connection of rotating electrical machines, the blanking hole has been seted up at the top of output tube, and the blanking hole is located between two set-squares, can drive first screw propulsion axle through starting the rotating electrical machines and rotate, and first screw propulsion axle can carry the first row of material pipe with the broken raw materials that falls into on the output tube.

Preferably, a strip-shaped hole is formed in one side of the crushing box, strip-shaped glass is embedded into the strip-shaped hole in a fixed mode, and the crushing condition of the fixed crushing raw materials of the crushing box can be checked by the strip-shaped glass.

Preferably, promote the subassembly including rotating the second screw propulsion axle of installing on the riser, fixed mounting has step motor in the headstock, step motor's output shaft and the bottom fixed connection of second screw propulsion axle utilize step motor can drive second screw propulsion axle and rotate, and second screw propulsion axle can promote broken raw materials to arrange the material pipe through the second finally and flow into in the agitator tank.

Preferably, power component includes the band-type brake motor of fixed mounting on agitator tank top inner wall, the output shaft of band-type brake motor and the top fixed connection of first (mixing) shaft, the outside cover of second (mixing) shaft is equipped with driven gear, and two driven gear all mesh with the driving gear mutually, can drive driving gear and driven gear rotation through starting the band-type brake motor, and then can drive first (mixing) shaft and second (mixing) shaft simultaneously and rotate.

Preferably, the number of the broken fragments is between eight and twenty, and the eight to twenty broken fragments are arranged at equal intervals on the side where the crushing seat and the swinging plate are close to each other.

According to the invention, a solid raw material to be processed is put into the crushing box through the feeding pipe, and flows into a space between the crushing seat and the swing plate through the drainage plate, at the moment, the driving motor is started, the rotating shaft can be driven to rotate under the transmission of the first synchronizing wheel and the second synchronizing wheel, the rotating shaft can drive the rotating disc to rotate, so that driving force can be provided for the rotating disc, the swing plate can be driven to swing by using the cam and the connecting rod as a fulcrum when the rotating disc rotates, and the swing plate can crush the solid raw material by using broken pieces in the swinging process.

According to the invention, the crushed solid raw materials flow into the output pipe through the triangular plate, the rotating motor is started at the moment to drive the first spiral propelling shaft to rotate, the first spiral propelling shaft can convey the crushed raw materials falling onto the output pipe to the first discharging pipe, and the crushed raw materials in the first discharging pipe can fall into the lifting pipe.

According to the invention, the stepping motor can be used for driving the second spiral propelling shaft to rotate, and the second spiral propelling shaft can lift the crushed raw materials and finally flow into the stirring box through the second discharging pipe.

According to the invention, liquid raw materials can be put into the stirring box by using the liquid inlet pipe, the band-type brake motor is started at the moment, the band-type brake motor can drive the first stirring shaft and the second stirring shaft to rotate under the transmission of the driving gear and the driven gear, so that solid broken raw materials and liquid raw materials in the stirring box can be uniformly mixed by using the first stirring shaft and the second stirring shaft, meanwhile, the temperature in the stirring box can be increased by using the heating pipe, the biological bacteria in the stirring box can be expanded, meanwhile, the pressure in the stirring box can be applied by using the pressure pump, the biological bacteria can be expanded under a specified pressure environment, when the biological bacteria are stirred and expanded, the biological bacteria can be rapidly fermented and propagated, and after the biological bacteria are fermented and propagated, the liquid outlet pipe can be used for discharging the biological bacteria.

The invention has the advantages of high automatic mechanization degree, simple operation, convenient use, liberation of manpower, reduction of processing cost, stronger practicability, accordance with the processing flow of modern production equipment and wide market popularization prospect in the process of producing biological bacteria.

Drawings

FIG. 1 is a schematic diagram of an overall three-dimensional structure of a production facility for rapid fermentation and propagation of biological bacteria according to the present invention;

FIG. 2 is a schematic sectional view of the crushing box in FIG. 1 of a production facility for rapid fermentation and propagation of biological bacteria according to the present invention;

FIG. 3 is a schematic sectional view of the riser pipe in FIG. 1 of a production facility for rapid fermentation and propagation of biological bacteria according to the present invention;

FIG. 4 is a schematic sectional front view of the stirring box in FIG. 1 of a production facility for rapid fermentation and propagation of biological bacteria according to the present invention;

FIG. 5 is a schematic structural diagram of two driven gears and a driving gear of a production apparatus for rapid fermentation and propagation of biological bacteria according to the present invention;

FIG. 6 is a schematic view of the engagement structure of the first pulley and the second pulley of the production apparatus for rapid fermentation and propagation of biological bacteria according to the present invention.

In the figure: 1 crushing box, 2 power box, 3 lifting pipe, 4 stirring box, 5 feeding pipe, 6 crushing seat, 7 rotating rod, 8 swinging plate, 9 crushing block, 10 rotating shaft, 11 rotating disc, 12 cam, 13 connecting rod, 14 first synchronizing wheel, 15 driving motor, 16 second synchronizing wheel, 17 synchronizing belt, 18 flow guiding plate, 19 triangular plate, 20 output pipe, 21 rotating motor, 22 first spiral pushing shaft, 23 first discharging pipe, 24 stepping motor, 25 second spiral pushing shaft, 26 second discharging pipe, 27 liquid inlet pipe, 28 band-type brake motor, 29 first stirring shaft, 30 driving gear, 31 driven gear, 32 second stirring shaft, 33 heating pipe, 34 pressurizing pump, 35 liquid outlet pipe, 36 valve and 37 strip glass.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Referring to fig. 1-6, a production apparatus for rapid fermentation and propagation of biological bacteria, comprising a crushing box 1, a power box 2 and a stirring box 4 fixedly installed in sequence, a lift pipe 3 is fixedly installed at the top of the power box 2, a feed pipe 5 communicated with the top of the crushing box 1 is fixedly installed at the top of the power box 1, a crushing seat 6 is fixedly installed on the inner side wall of the crushing box 1, a rotating rod 7 is fixedly installed on the inner wall of one side of the crushing box 1, a swinging plate 8 is rotatably sleeved at the outer side of the rotating rod 7, a plurality of crushing blocks 9 arranged at equal intervals are fixedly installed at the mutually close sides of the swinging plate 8 and the crushing seat 6, a rotating shaft 10 is rotatably connected on the inner wall of one side of the crushing box 1, a driving component is fixedly installed on the rotating shaft 10, a rotating disc 11 is fixedly installed at the fixed end of the rotating shaft 10, a, one end of a connecting rod 13 is rotatably connected with one side of a swinging plate 8, triangular plates 19 are fixedly mounted on inner walls of two sides of a crushing box 1, a discharging component is fixedly mounted in the crushing box 1, a first discharging pipe 23 is fixedly mounted on one side of the crushing box 1 and is communicated with the first discharging pipe 23, the other end of the first discharging pipe 23 extends into a lifting pipe 3, a lifting component is arranged on the lifting pipe 3, a second discharging pipe 26 communicated with the lifting pipe 3 is fixedly mounted on one side of the lifting pipe 3, one end of the second discharging pipe 26 extends into a stirring box 4, a liquid inlet pipe 27 communicated with the stirring box 4 is fixedly mounted at the top of the stirring box 4, a first stirring shaft 29 and two second stirring shafts 32 are rotatably connected to the stirring box 4 respectively, the first stirring shaft 29 and the two second stirring shafts 32 are fixedly connected with the same power component, and a plurality of vertically-arranged heating pipes 33 are longitudinally and fixedly mounted, one side of agitator tank 4 is fixed with force (forcing) pump 34, and the bottom fixed mounting of agitator tank 4 has drain pipe 35 that is linked together, is provided with valve 36 on the drain pipe 35.

Example two

The embodiment is improved on the basis of the first embodiment: the driving assembly comprises a first synchronizing wheel 14 fixedly sleeved outside the rotating shaft 10, a driving motor 15 is fixedly installed in the crushing box 1, a second synchronizing wheel 16 is fixedly installed on an output shaft of the driving motor 15, the outer sides of the first synchronizing wheel 14 and the second synchronizing wheel 16 are connected with a same synchronous belt 17 in a transmission mode, the driving motor 15 is started, the rotating shaft 10 can be driven to rotate under the transmission of the first synchronizing wheel 14 and the second synchronizing wheel 16, the rotating shaft 10 can drive the rotating disc 11 to rotate, and then driving force can be provided for the rotating disc 11; the inner wall of the top of the crushing box 1 is fixedly provided with a drainage plate 18, the drainage plate 18 is positioned under the feeding pipe 5, when raw materials for producing the biological agent are required to be fed into the crushing box 1 through the feeding pipe 5, the raw materials can flow into a space between the crushing seat 6 and the swing plate 8 through the drainage plate 18, and then the drainage plate 18 has the effect of draining the raw materials; the discharging assembly comprises an output pipe 20 fixedly installed at the bottoms of two triangular plates 19, a first spiral propelling shaft 22 rotatably installed is arranged in the output pipe 20, the first spiral propelling shaft 22 is matched with the output pipe 20, a rotating motor 21 is fixedly installed on one side of the crushing box 1, an output shaft of the rotating motor 21 extends into the output pipe 20 and is fixedly connected with one end of the rotating motor 21, a blanking hole is formed in the top of the output pipe 20 and is positioned between the two triangular plates 19, the first spiral propelling shaft 22 can be driven to rotate by starting the rotating motor 21, and the first spiral propelling shaft 22 can convey crushing raw materials falling onto the output pipe 20 to a first discharging pipe 23; a strip-shaped hole is formed in one side of the crushing box 1, strip-shaped glass 37 is fixedly embedded in the strip-shaped hole, and the crushing condition of the fixed crushing raw materials of the crushing box 1 can be checked by utilizing the strip-shaped glass; the lifting assembly comprises a second spiral propelling shaft 25 rotatably mounted on the lifting pipe 3, a stepping motor 24 is fixedly mounted in the power box 2, an output shaft of the stepping motor 24 is fixedly connected with the bottom of the second spiral propelling shaft 25, the stepping motor 24 can drive the second spiral propelling shaft 25 to rotate, and the second spiral propelling shaft 25 can lift the crushed raw materials and finally flow into the stirring box 4 through a second discharging pipe 26; the power assembly comprises a band-type brake motor 28 fixedly arranged on the inner wall of the top of the stirring box 4, an output shaft of the band-type brake motor 28 is fixedly connected with the top end of the first stirring shaft 29, a driven gear 31 is sleeved on the outer side of the second stirring shaft 32, the two driven gears 31 are both meshed with the driving gear 30, the driving gear 30 and the driven gear 31 can be driven to rotate by starting the band-type brake motor 28, and then the first stirring shaft 29 and the second stirring shaft 32 can be driven to rotate simultaneously; the number of the broken pieces 9 is between eight and twenty, and the eight to twenty broken pieces 9 are arranged at equal intervals on the side where the crushing seat 6 and the swinging plate 8 are close to each other.

According to the invention, a solid raw material to be processed is fed into the crushing box 1 through the feeding pipe 5, and the solid raw material flows into a space between the crushing seat 6 and the swing plate 8 through the drainage plate 18, at the moment, the driving motor 15 is started, the rotating shaft 10 can be driven to rotate under the transmission of the first synchronizing wheel 14 and the second synchronizing wheel 16, the rotating shaft 10 can drive the rotating disc 11 to rotate, so that a driving force can be provided for the rotating disc 11, the swing plate 8 can be driven to swing by using the cam 12 and the connecting rod 13 as a fulcrum when the rotating disc 11 rotates, and the solid raw material can be crushed by using the crushing blocks 9 during the swinging process of the swing plate 6.

In the invention, the crushed solid raw materials flow into the output pipe 20 through the triangular plate 19, at this time, the rotary motor 21 is started to drive the first screw propulsion shaft 22 to rotate, the first screw propulsion shaft 2 can convey the crushed raw materials falling onto the output pipe 20 to the first discharge pipe 23, and the crushed raw materials in the first discharge pipe 23 can fall into the lift pipe 3;

in the present invention, the stepping motor 24 can be used to drive the second screw propulsion shaft 25 to rotate, and the second screw propulsion shaft 25 can lift the crushed raw material and finally flow into the stirring tank 4 through the second discharge pipe 26.

In the invention, liquid raw materials can be put into the stirring box 4 by utilizing the liquid inlet pipe 27, the band-type brake motor 28 is started at the moment, the band-type brake motor 28 can simultaneously drive the first stirring shaft 29 and the second stirring shaft 32 to rotate under the transmission of the driving gear 30 and the driven gear 31, so that the solid crushed raw material and the liquid raw material in the stirring tank 4 can be uniformly mixed by the first stirring shaft 29 and the second stirring shaft 32, meanwhile, the heating pipe 33 can increase the temperature in the stirring box 4, which is helpful for the biological bacteria in the stirring box 4 to expand, meanwhile, the pressure pump 34 can apply pressure to the inside of the stirring box 4, so that the biological bacteria can be puffed under the specified pressure environment, when the biological bacteria are mixed and puffed, the quick fermentation and propagation of the biological bacteria are facilitated, and the biological bacteria can be discharged by the liquid outlet pipe 35 after the fermentation and propagation of the biological bacteria.

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

Claims (8)

1. The utility model provides a make production facility that biological fungus ferments fast and breeds, includes fixed mounting's broken case (1), headstock (2) and agitator tank (4) in proper order, its characterized in that, the top fixed mounting of headstock (2) has riser (3), the top fixed mounting of broken case (1) has inlet pipe (5) that are linked together, fixed mounting has broken seat (6) on the inside lateral wall of broken case (1), one side inner wall fixed mounting of broken case (1) has dwang (7), the outside of dwang (7) is rotated the cover and is equipped with swing board (8), equal fixed mounting has a plurality of equidistance broken pieces (9) of arranging in one side that swing board (8) and broken seat (6) are close to each other, it is connected with rotation axis (10) to rotate on one side inner wall of broken case (1), fixed mounting has drive assembly on rotation axis (10), the fixed cover of one end of rotation axis (10) is equipped with rolling disc (11), fixed mounting has cam (12) on one side central point of rolling disc (11) puts, it is connected with connecting rod (13) to rotate on cam (12), one end of connecting rod (13) and one side of swinging plate (8) rotate to be connected, equal fixed mounting has set-square (19) on the both sides inner wall of broken case (1), fixed mounting has row material subassembly in broken case (1), one side fixed mounting of broken case (1) has first row of material pipe (23), and arranges material subassembly and first row of material pipe (23) and be linked together, the other end of first row of material pipe (23) extends to in riser (3), be provided with the promotion subassembly on riser (3), the second row of being linked together of one side fixed mounting of riser (3) expects pipe (26), and the one end that the second row of material pipe (26) extends to in agitator tank (4), the top fixed mounting of agitator tank (4) has feed liquor pipe (27) that are linked together, it is connected with first (mixing) shaft (29) and two second (mixing) shaft (32) to rotate respectively on agitator tank (4), and just the same power component of first (mixing) shaft (29) and two second (mixing) shaft (32) fixedly connected with, vertical fixed mounting has a plurality of vertical heating pipes (33) of arranging in agitator tank (4), one side fixed mounting of agitator tank (4) has force (forcing) pump (34), the bottom fixed mounting of agitator tank (4) has drain pipe (35) that are linked together, be provided with valve (36) on drain pipe (35).

2. The production equipment for rapidly fermenting and propagating the biological bacteria according to claim 1, wherein the driving assembly comprises a first synchronizing wheel (14) fixedly sleeved outside the rotating shaft (10), a driving motor (15) is fixedly installed in the crushing box (1), a second synchronizing wheel (16) is fixedly installed on an output shaft of the driving motor (15), and the same synchronizing belt (17) is connected to the outer sides of the first synchronizing wheel (14) and the second synchronizing wheel (16) in a transmission manner.

3. The production equipment for rapidly fermenting and propagating the biological bacteria according to claim 1, wherein a flow guide plate (18) is fixedly installed on the inner wall of the top of the crushing box (1), and the flow guide plate (18) is positioned right below the feeding pipe (5).

4. The production equipment for rapidly fermenting and propagating the biological bacteria according to claim 1, wherein the discharging assembly comprises an output pipe (20) fixedly installed at the bottom of the two triangular plates (19), a first screw propulsion shaft (22) rotatably installed is arranged in the output pipe (20), the first screw propulsion shaft (22) is matched with the output pipe (20), a rotating motor (21) is fixedly installed at one side of the crushing box (1), an output shaft of the rotating motor (21) extends into the output pipe (20) and is fixedly connected with one end of the rotating motor (21), a blanking hole is formed in the top of the output pipe (20), and the blanking hole is located between the two triangular plates (19).

5. The production equipment for rapidly fermenting and propagating the biological bacteria according to claim 1, wherein a strip-shaped hole is formed in one side of the crushing box (1), and strip-shaped glass (37) is fixedly embedded in the strip-shaped hole.

6. The production equipment for rapidly fermenting and propagating the biological bacteria according to claim 1, wherein the lifting assembly comprises a second spiral propulsion shaft (25) rotatably installed on the lifting pipe (3), a stepping motor (24) is fixedly installed in the power box (2), and an output shaft of the stepping motor (24) is fixedly connected with the bottom of the second spiral propulsion shaft (25).

7. The production equipment for rapidly fermenting and propagating the biological bacteria according to claim 1, wherein the power assembly comprises a band-type brake motor (28) fixedly installed on the inner wall of the top of the stirring box (4), an output shaft of the band-type brake motor (28) is fixedly connected with the top end of the first stirring shaft (29), a driven gear (31) is sleeved on the outer side of the second stirring shaft (32), and the two driven gears (31) are meshed with the driving gear (30).

8. A production facility for the rapid fermentative propagation of biological bacteria according to claim 1, wherein the number of the broken pieces (9) is between eight and twenty, and the eight to twenty broken pieces (9) are arranged equidistantly on the side of the breaking base (6) and the swinging plate (8) that are close to each other.

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