1. A organic protein mixing stirring device for microorganism rapid propagation which is characterized in that: including stirring casing (1), the top mid-mounting of stirring casing (1) has agitator motor (3), just the output of agitator motor (3) runs through to the internally mounted of stirring casing (1) has last cone template (18), go up the interior bottom of cone template (18) and install interior pole (21), main puddler (17) is installed to the outside bottom of interior pole (21), (19) are installed at the top of main puddler (17), side puddler (13) are installed to the outside of main puddler (17) equidistant, just side puddler (13) with main puddler (17) intercommunication, carbon source multiunit discharge port (26) have been seted up in the outside of side puddler (13), side upper plate (6) are installed at the top of stirring casing (1) one side, the top of side upper plate (6) has cavity (28) through support frame (29) centre gripping, the inner part of the hollow heating pipe (28) is provided with a first electric heating component, the inner wall interlayer of the hollow heating pipe (28) is provided with a spiral heating pipe (30) in a surrounding manner, one end of the spiral heating pipe (30) is communicated with a carbon source storage component, the other end of the spiral heating pipe (30) is communicated with a carbon source leading-in component, the output end of the carbon source leading-in component is inserted into the inner sides of the upper conical plates (18) and (19) and is connected with the inner wall end parts of the upper conical plates (18) and (19) through a sliding component, the inner wall interlayer of the stirring shell (1) is provided with a second electric heating component, the bottom of the inner wall of the stirring shell (1) is provided with a PH value detection sensor (15) and a temperature detection sensor (14), the outer side of the stirring shell (1) is provided with an acid-alkali liquor adjusting and adding component, and the bottom of the stirring shell (1) is communicated with a discharge valve (33), the top side of the stirring shell (1) is communicated with a side top cover (2).

2. The organic protein mixing and stirring device for rapid propagation of microorganisms according to claim 1, wherein: the first electric heating assembly comprises an inner electric heater (32) and an inner heating plate (31), the inner heating plate (31) is laid around the inner wall of the hollow heating pipe (28), the inner electric heater (32) is installed on the inner wall of the inner heating plate (31), and the inner electric heater (32) is electrically connected with the inner heating plate (31);

the second electric heating assembly comprises a side heating plate (4) and an electric heater (5), the side heating plate (4) is arranged around the interlayer of the inner wall of the stirring shell (1), the electric heater (5) is installed on the outer side of the stirring shell (1), and the electric heater (5) is electrically connected with the side heating plate (4).

3. The organic protein mixing and stirring device for rapid propagation of microorganisms according to claim 2, wherein: the carbon source storage assembly comprises a carbon source storage box (7) and a carbon source adding valve (27), the carbon source storage box (7) is installed at the top edge part of the side upper plate (6), the top of one side of the carbon source storage box (7) is communicated with the carbon source adding valve (27), and the bottom of the outer side of the carbon source storage box (7) is communicated with one end of the spiral heating pipe (30).

4. The organic protein mixing and stirring device for rapid propagation of microorganisms according to claim 3, wherein: the carbon source introducing assembly comprises a carbon source adding pump (16), a carbon source guiding pipe (23) and an inclined introducing pipe (25), the output end of the carbon source adding pump (16) is communicated with the carbon source guiding pipe (23), the other end of the carbon source guiding pipe (23) is communicated with the inclined introducing pipe (25), the inclined introducing pipe (25) is inserted into the inner sides of the upper conical plates (18) and (19), and the inclined introducing pipe (25) inclines downwards.

5. The organic protein mixing and stirring device for rapid propagation of microorganisms according to claim 4, wherein: the acid-alkali liquor adjusting and adding assembly comprises a three-way pipe (9), a PH value adjusting water pump (8), an alkaline solution storage box (11), an acidic solution storage box (12) and an electromagnetic valve (10), wherein the alkaline solution storage box (11) and the acidic solution storage box (12) are arranged on one side of the stirring shell (1), the electromagnetic valve (10) is communicated with the tops of the alkaline solution storage box (11) and the acidic solution storage box (12), the three-way pipe (9) is communicated with the output end of the electromagnetic valve (10), the PH value adjusting water pump (8) is communicated with the output end of the three-way pipe (9), and the other end of the PH value adjusting water pump (8) is inserted into the inner bottom of the side heating plate (4).

6. The organic protein mixing and stirring device for rapid propagation of microorganisms according to claim 5, wherein: the sliding assembly comprises adjusting balls (24), an annular groove (20) and a ball placing groove (34), the ball placing groove (34) is arranged on the outer side of the carbon guide source pipe (23) in a surrounding mode, the annular groove (20) is formed in the bottom ring portion of the upper conical plate (18) and the top ring portion of the upper conical plate (19), and the adjusting balls (24) are arranged on the inner side of the annular groove (20) and the inner side of the ball placing groove (34).

7. The organic protein mixing and stirring device for rapid propagation of microorganisms according to claim 6, wherein: the top of side top cap (2) articulates there is sealed lid, the top mid-mounting of sealed lid has the handle of uncapping, the outside cover of handle is equipped with the lag.

8. The organic protein mixing and stirring device for rapid propagation of microorganisms according to claim 7, wherein: and an inverted cone-shaped block (22) is arranged on the outer side of the inner rod (21) and between the inner rod (19) and the upper cone-shaped plate (18).

9. The mixing method of an organic protein mixing and stirring device for rapid propagation of microorganisms according to claim 8, wherein: the method comprises the following steps:

step 1: organic protein and microorganisms are put into the stirring shell (1) by opening the side top cover (2);

step 2: starting a stirring motor (3), an electric heater (5) and an inner electric heater (32), driving an upper conical plate (18) to rotate through the stirring motor (3) and driving an inner rod (21) to rotate through the upper conical plate (18), and further driving a main stirring rod (17) and a side stirring rod (13) to rotate through the inner rod (21) for mixing and stirring;

and step 3: starting a carbon source adding pump (16) to pump the carbon source in the carbon source storage box (7) into a spiral heating pipe (30), heating the carbon source through an internal heating plate (31), and then introducing the carbon source into a carbon source guide pipe (23);

and 4, step 4: enters the inner part (19) through a carbon guide pipe (23) and is blocked by an inverted cone-shaped block (22) to prevent splashing;

and 5: the carbon source enters the main stirring rod (17) through the carbon source outlet (19), enters the side stirring rod (13) through the main stirring rod (17), and is led out to the mixture of the organic protein and the microorganism which are mixed and stirred again through the carbon source outlet (26);

step 6: a temperature detection sensor (14) is adopted to detect the temperature in the stirring shell (1), and the electric heater (5) is used for heating the side heating plate (4), so that the stirring shell (1) is heated;

and 7: a PH value detection sensor (15) is adopted to detect the pH value in the stirring shell (1), and a PH value adjusting water pump (8) is started to cooperate with an electromagnetic valve (10) to pump the solution in an alkaline solution storage tank (11) or an acidic solution storage tank (12) into the stirring shell (1) for mixing and adjusting the pH value;

and 8: discharging the mixed organic protein and microorganism mixture through a discharge valve (33).

Background

Microorganisms include bacteria, viruses, fungi, and some small protists, microscopic algae, etc., which are small and closely related to humans. The food can be widely applied to various fields such as food, medicine, industry and agriculture, environmental protection, sports and the like.

In textbooks of China, microorganisms are classified into the following 8 major groups, bacteria, viruses, fungi, actinomycetes, rickettsia, mycoplasma, chlamydia, and spirochetes. Some microorganisms are visible to the naked eye, such as mushrooms, ganoderma, lentinus edodes, etc., which belong to fungi, and are "acellular organisms" consisting of a few components, such as nucleic acids and proteins.

In the prior art, a culture box is adopted for culture and rapid propagation of microorganisms, a carbon source and organic protein are added in the culture box in a static culture mode, and an organic protein is mixed into the microorganisms in a stirring mode to improve the contact rate so as to increase the rapid propagation function.

Disclosure of Invention

The invention mainly aims to provide an organic protein mixing and stirring device and a mixing method for rapid propagation of microorganisms, organic protein and microorganisms are thrown into a stirring shell by opening a side top cover, a stirring motor, an electric heater and an internal electric heater are started, an upper conical plate is driven to rotate by the stirring motor, an inner rod is driven to rotate by the upper conical plate, a main stirring rod and a side stirring rod are driven to rotate by the inner rod for mixing and stirring, a carbon source adding pump is started to pump a carbon source in a carbon source storage box into a spiral heating pipe, the carbon source is heated by an internal heating plate and then is led into a carbon guide pipe, the carbon source enters the inside through the carbon guide pipe and is prevented from splashing by an inverted cone block grid, the carbon source enters the main stirring rod, enters the side stirring rod through the main stirring rod and then is led out to a mixture of the organic protein and the microorganisms which are mixed and stirred again through a carbon source discharge port, adopt temperature detection sensor to detect the temperature in the stirring casing and heat through electric heater offside hot plate, and then heat in to the stirring casing, adopt pH value detection sensor to detect the pH valve in the stirring casing and through starting pH value regulation water pump cooperation solenoid valve with the solution suction in alkaline solution storage box or the acidic solution bin to mix in the stirring casing and adjust the pH valve, pass through the bleeder valve with the organic protein after will mixing and discharge with the microorganism mixture.

The purpose of the invention can be achieved by adopting the following technical scheme:

an organic protein mixing and stirring device for rapid propagation of microorganisms comprises a stirring shell, wherein a stirring motor is arranged in the middle of the top of the stirring shell, the output end of the stirring motor penetrates through the stirring shell, an upper conical plate is arranged inside the stirring shell, an inner rod is arranged at the inner bottom of the upper conical plate, a main stirring rod is arranged at the bottom of the outer side of the inner rod, the top of the main stirring rod is arranged, side stirring rods are arranged at equal intervals outside the main stirring rod and communicated with the main stirring rod, a plurality of groups of carbon source discharge ports are formed in the outer side of each side stirring rod, an upper side plate is arranged at the top of one side of the stirring shell, a hollow heating pipe is clamped at the top of the upper side plate through a support frame, a first electric heating component is arranged inside the hollow heating pipe, and a spiral heating pipe is arranged around the interlayer of the inner wall of the hollow heating pipe, the one end intercommunication of spiral heating pipe has carbon source storage component, the other end intercommunication of spiral heating pipe has carbon source leading-in subassembly, just the output of carbon source leading-in subassembly insert to last cone template and inboard and through the slip subassembly with go up cone template and inner wall end connection, the inner wall intermediate layer of stirring casing is equipped with second electric heating element, the inner wall bottom of stirring casing is equipped with pH value detection sensor and temperature detection sensor, the outside of stirring casing is equipped with the acid-base liquid and adjusts the joining subassembly, the bottom intercommunication of stirring casing has the bleeder valve, the top side portion intercommunication of stirring casing has the side top cap.

Preferably, the first electric heating assembly comprises an inner electric heater and an inner heating plate, the inner heating plate is laid around the inner wall of the hollow heating pipe, the inner electric heater is mounted on the inner wall of the inner heating plate, and the inner electric heater is electrically connected with the inner heating plate;

the second electric heating assembly comprises a side heating plate and an electric heater, the side heating plate is arranged around the interlayer of the inner wall of the stirring shell, the electric heater is arranged on the outer side of the stirring shell, and the electric heater is electrically connected with the side heating plate.

Preferably, the carbon source storage assembly comprises a carbon source storage box and a carbon source adding valve, the carbon source storage box is installed at the top edge part of the side upper plate, the top part of one side of the carbon source storage box is communicated with the carbon source adding valve, and the bottom of the outer side of the carbon source storage box is communicated with one end of the spiral heating pipe.

Preferably, the carbon source introducing component comprises a carbon source adding pump, a carbon source guiding pipe and an inclined introducing pipe, the output end of the carbon source adding pump is communicated with the carbon source guiding pipe, the other end of the carbon source guiding pipe is communicated with the inclined introducing pipe, the inclined introducing pipe is inserted into the inner sides of the upper conical plate and the inclined introducing pipe, and the inclined introducing pipe inclines downwards.

Preferably, the acid and alkali liquor adjusting and adding assembly comprises a three-way pipe, a pH value adjusting water pump, an alkaline solution storage tank, an acidic solution storage tank and a solenoid valve, wherein the alkaline solution storage tank and the acidic solution storage tank are arranged on one side of the stirring shell, the solenoid valves are communicated with the tops of the alkaline solution storage tank and the acidic solution storage tank, the output end of each solenoid valve is communicated with the three-way pipe, the output end of each three-way pipe is communicated with the pH value adjusting water pump, and the other end of the pH value adjusting water pump is inserted into the inner bottom of the side heating plate.

Preferably, the sliding assembly comprises an adjusting ball, an annular groove and a ball placing groove, the ball placing groove is arranged on the outer side of the carbon guide source pipe in a surrounding mode, the annular groove is formed in the bottom ring part of the upper conical plate and the top ring part of the upper conical plate, and the adjusting ball is arranged on the inner side of the annular groove and the inner side of the ball placing groove.

Preferably, the top of side top cap articulates there is sealed lid, the top mid-mounting of sealed lid has the handle of uncapping, the outside cover of handle is equipped with the lag.

Preferably, an inverted cone-shaped block is arranged on the outer side of the inner rod and between the inner rod and the upper cone-shaped plate.

The mixing method of the organic protein mixing and stirring device for the rapid propagation of the microorganisms comprises the following steps:

step 1: organic protein and microorganisms are added into the stirring shell by opening the side top cover;

step 2: starting the stirring motor, the electric heater and the inner electric heater, driving the upper conical plate to rotate through the stirring motor, driving the inner rod to rotate through the upper conical plate, and further driving the main stirring rod and the side stirring rod to rotate through the inner rod for mixing and stirring;

and step 3: starting a carbon source adding pump to pump a carbon source in a carbon source storage box into a spiral heating pipe, heating the carbon source through an internal heating plate, and then introducing the carbon source into a carbon source guide pipe;

and 4, step 4: the carbon source enters the inner part through the carbon guide pipe and is blocked by the inverted cone-shaped block to prevent splashing;

and 5: the carbon source enters the main stirring rod, enters the side stirring rod through the main stirring rod and then is led out to the mixture of the organic protein and the microorganism which are mixed and stirred again through the carbon source outlet;

step 6: a temperature detection sensor is adopted to detect the temperature in the stirring shell, and the electric heater is used for heating the side heating plate, so that the stirring shell is heated;

and 7: detecting the pH value in the stirring shell by adopting a pH value detection sensor, and pumping the solution in an alkaline solution storage tank or an acidic solution storage tank into the stirring shell by starting a pH value adjusting water pump and matching an electromagnetic valve to mix and adjust the pH value;

and 8: discharging the mixed organic protein and microorganism mixture through a discharge valve.

The invention has the beneficial technical effects that:

the invention provides an organic protein mixing and stirring device and a mixing method for rapid microbial propagation, wherein organic protein and microbes are put into a stirring shell by opening a side top cover, a stirring motor, an electric heater and an internal electric heater are started, an upper conical plate is driven to rotate by the stirring motor, an inner rod is driven to rotate by the upper conical plate, a main stirring rod and a side stirring rod are driven to rotate by the inner rod for mixing and stirring, a carbon source adding pump is started to pump a carbon source in a carbon source storage box into a spiral heating pipe, the carbon source is heated by an internal heating plate and then is led into a carbon source guide pipe, the carbon source enters the inside through the carbon source guide pipe and is prevented from splashing through an inverted cone block grid, the carbon source enters the main stirring rod, enters the side stirring rod through the main stirring rod and then is led out into a mixture of the organic protein and the microbes which are mixed and stirred again through a carbon source discharge port, a temperature detection sensor is adopted to detect the temperature in the stirring shell, and the side heating plate is subjected to mixing and stirring through the electric heater Heating, and then heating in to the stirring casing, adopt pH value detection sensor to detect the pH valve in the stirring casing and through starting pH value regulation water pump cooperation solenoid valve with the solution suction of alkaline solution storage box or acid solution bin to carry out the mixed regulation pH valve in the stirring casing, pass through the bleeder valve with the organic protein after mixing and microorganism mixture and discharge.

Drawings

FIG. 1 is a front sectional view of an apparatus in accordance with a preferred embodiment of an organic protein mixing and stirring apparatus for rapid microbial propagation and a mixing method according to the present invention;

FIG. 2 is a schematic structural view of a stirring assembly according to a preferred embodiment of the organic protein mixing and stirring apparatus and the mixing method for rapid microbial propagation according to the present invention;

FIG. 3 is an enlarged view of the structure at b of a preferred embodiment of the mixing device and the mixing method for organic protein for rapid propagation of microorganisms according to the present invention;

FIG. 4 is an enlarged view of a structure at a position a in accordance with a preferred embodiment of the mixing device and the mixing method for organic protein for rapid propagation of microorganisms according to the present invention;

FIG. 5 is a schematic structural view of a carbon source heating element according to a preferred embodiment of the mixing device and the mixing method for organic protein for rapid microbial propagation according to the present invention;

FIG. 6 is an enlarged view of the structure at the position c of a preferred embodiment of the mixing device and the mixing method for organic protein for rapid propagation of microorganisms according to the present invention.

In the figure: 1-a stirring shell, 2-a side top cover, 3-a stirring motor, 4-a side heating plate, 5-an electric heater, 6-a side upper plate, 7-a carbon source storage tank, 8-a pH value adjusting water pump, 9-a three-way pipe, 10-an electromagnetic valve, 11-an alkaline solution storage tank, 12-an acidic solution storage tank, 13-a side stirring rod, 14-a temperature detecting sensor, 15-a pH value detecting sensor, 16-a carbon source adding pump, 17-a main stirring rod, 18-an upper conical plate, 19-a lower conical plate, 20-an annular groove, 21-an inner rod, 22-an inverted conical block, 23-a carbon guide pipe, 24-an adjusting ball, 25-an inclined inlet pipe, 26-a carbon source outlet, 27-a carbon source adding valve, 28-a hollow heating pipe, 29-support frame, 30-spiral heating pipe, 31-internal heating plate, 32-internal electric heater, 33-discharge valve, 34-ball placing groove.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1 to 6, the organic protein mixing and stirring device for rapid propagation of microorganisms provided in this embodiment includes a stirring housing 1, a stirring motor 3 is installed at the top middle portion of the stirring housing 1, an upper conical plate 18 is installed at an output end of the stirring motor 3 penetrating through the stirring housing 1, an inner rod 21 is installed at an inner bottom portion of the upper conical plate 18, a main stirring rod 17 is installed at an outer bottom portion of the inner rod 21, a top portion 19 of the main stirring rod 17 is installed at a top portion of the main stirring rod 17, side stirring rods 13 are installed at equal intervals at an outer side of the main stirring rod 17, the side stirring rods 13 are communicated with the main stirring rod 17, a plurality of carbon source discharge ports 26 are opened at an outer side of the side stirring rod 13, a side upper plate 6 is installed at a top portion of one side of the stirring housing 1, a hollow heating pipe 28 is clamped at a top portion of the side upper plate 6 through a supporting frame 29, a first electric heating assembly is installed inside the hollow heating pipe 28, a spiral heating pipe 30 is surrounded by an inner wall interlayer of the hollow heating pipe 28, spiral heating pipe 30's one end intercommunication has carbon source storage component, spiral heating pipe 30's the other end intercommunication has carbon source leading-in subassembly, and the output of carbon source leading-in subassembly inserts to last tapered plate 18 and 19 inboards and through sliding assembly and last tapered plate 18 and 19 inner wall end connection, the inner wall intermediate layer of stirring casing 1 is equipped with second electric heating element, the inner wall bottom of stirring casing 1 is equipped with pH value detection sensor 15 and temperature detection sensor 14, the outside of stirring casing 1 is equipped with the acid-base liquid and adjusts the joining subassembly, the bottom intercommunication of stirring casing 1 has bleeder valve 33, the top side portion intercommunication of stirring casing 1 has side top cap 2.

Organic protein and microorganisms are put into the stirring shell 1 by opening the side top cover 2, the stirring motor 3, the electric heater 5 and the inner electric heater 32 are started, the upper conical plate 18 is driven to rotate by the stirring motor 3, the inner rod 21 is driven to rotate by the upper conical plate 18, the main stirring rod 17 and the side stirring rod 13 are driven to rotate by the inner rod 21 for mixing and stirring, the carbon source adding pump 16 is started to pump the carbon source in the carbon source storage box 7 into the spiral heating pipe 30 for heating through the inner heating plate 31 and then into the carbon source guiding pipe 23, the carbon source enters into the main stirring rod 17 through the carbon source guiding pipe 23 and is prevented from splashing through the inverted conical block 22, the carbon source enters into the main stirring rod 17 through the main stirring rod 17, enters into the side stirring rod 13 through the main stirring rod 17 and then is led out into the mixture of the organic protein and the microorganisms which are mixed and stirred again through the carbon source outlet 26, the temperature detection sensor 14 is used for detecting the temperature in the stirring shell 1 and heating is carried out through the side heating plate 4 by the electric heater 5, and then heat in the stirring shell body 1, adopt pH value detection sensor 15 to detect the pH value in the stirring shell body 1 and through starting pH value regulation water pump 8 cooperation solenoid valve 10 with the solution suction in alkaline solution storage tank 11 or the acid solution storage tank 12 to stirring shell body 1 in carry out the mixing and adjust pH value, pass through bleeder valve 33 with the organic protein and the microorganism mixture after will mixing and discharge.

In this embodiment, the first electric heating assembly comprises an inner electric heater 32 and an inner heating plate 31, the inner heating plate 31 is laid around the inner wall of the hollow heating pipe 28, the inner electric heater 32 is installed on the inner wall of the inner heating plate 31, the inner electric heater 32 is electrically connected with the inner heating plate 31, the carbon source storage assembly comprises a carbon source storage tank 7 and a carbon source adding valve 27, the carbon source storage tank 7 is installed at the top edge portion of the side upper plate 6, the top of one side of the carbon source storage box 7 is communicated with a carbon source adding valve 27, the bottom of the outer side of the carbon source storage box 7 is communicated with one end of a spiral heating pipe 30, the carbon source introducing component comprises a carbon source adding pump 16, a carbon guide source pipe 23 and an inclined introducing pipe 25, the output end of the carbon source adding pump 16 is communicated with the carbon guide source pipe 23, the other end of the carbon guide source pipe 23 is communicated with the inclined introducing pipe 25, the inclined introducing pipe 25 is inserted into the inner sides of the upper conical plates 18 and 19, and the inclined introducing pipe 25 inclines downwards;

and starting a carbon source adding pump 16 to pump the carbon source in the carbon source storage tank 7 into the spiral heating pipe 30, heating the carbon source by the internal heating plate 31, introducing the carbon source into the carbon source guide pipe 23, introducing the carbon source into the carbon source guide pipe 19 by the carbon source guide pipe 23, and blocking the carbon source from splashing by the inverted cone-shaped block 22.

The second electric heating assembly comprises a side heating plate 4 and an electric heater 5, wherein the side heating plate 4 is arranged in an interlayer of the inner wall of the stirring shell 1 in a surrounding mode, the electric heater 5 is arranged on the outer side of the stirring shell 1, and the electric heater 5 is electrically connected with the side heating plate 4.

The temperature inside the stirring housing 1 is detected by the temperature detection sensor 14 and the side heating plate 4 is heated by the electric heater 5, thereby heating the inside of the stirring housing 1.

In this embodiment, the subassembly is added in the acid-base liquid regulation includes three-way pipe 9, pH value regulation water pump 8, alkaline solution storage tank 11, acid solution bin 12 and solenoid valve 10, stirring 1 one side of casing is equipped with alkaline solution storage tank 11 and acid solution bin 12, the top intercommunication of alkaline solution storage tank 11 and acid solution bin 12 has solenoid valve 10, the output intercommunication of solenoid valve 10 has three-way pipe 9, the output intercommunication of three-way pipe 9 has pH value regulation water pump 8, pH value regulation water pump 8's the other end inserts to the interior bottom department of side hot plate 4.

The pH value in the stirring shell 1 is detected by a pH value detection sensor 15, and the solution in an alkaline solution storage tank 11 or an acidic solution storage tank 12 is pumped into the stirring shell 1 by starting a pH value adjusting water pump 8 and matching an electromagnetic valve 10 to mix and adjust the pH value.

In this embodiment, the sliding assembly includes an adjusting ball 24, an annular groove 20 and a ball placing groove 34, the ball placing groove 34 is disposed around the outer side of the carbon guide source tube 23, the annular groove 20 is disposed on both the bottom ring portion of the upper tapered plate 18 and the top ring portion of the upper tapered plate 19, and the adjusting ball 24 is disposed on the inner side of the annular groove 20 and the inner side of the ball placing groove 34.

In this embodiment, the top of side top cap 2 articulates there is sealed lid, and the top mid-mounting of sealed lid has the handle of uncapping, and the outside cover of handle is equipped with the lag.

In this embodiment, an inverted conical block 22 is provided outside the inner rod 21 and between the inner rod 19 and the upper conical plate 18.

The mixing method of the organic protein mixing and stirring device for the rapid propagation of the microorganisms comprises the following steps:

step 1: organic protein and microorganism are put into the stirring shell 1 by opening the side top cover 2;

step 2: starting the stirring motor 3, the electric heater 5 and the inner electric heater 32, driving the upper conical plate 18 to rotate through the stirring motor 3, driving the inner rod 21 to rotate through the upper conical plate 18, and further driving the main stirring rod 17 and the side stirring rod 13 to rotate through the inner rod 21 for mixing and stirring;

and step 3: starting a carbon source adding pump 16 to pump the carbon source in the carbon source storage tank 7 into the spiral heating pipe 30, heating the carbon source through the internal heating plate 31, and then introducing the carbon source into the carbon source guide pipe 23;

and 4, step 4: enters the inner part 19 through a carbon guide pipe 23 and is blocked by an inverted cone-shaped block 22 to prevent splashing;

and 5: the carbon source enters the main stirring rod 17 through the carbon source outlet 19, enters the side stirring rod 13 through the main stirring rod 17, and is led out to the mixture of the organic protein and the microorganism which are mixed and stirred again through the carbon source outlet 26;

step 6: the temperature in the stirring shell 1 is detected by a temperature detection sensor 14, and the side heating plate 4 is heated by an electric heater 5, so that the stirring shell 1 is heated;

and 7: detecting the pH value in the stirring shell 1 by adopting a pH value detection sensor 15, and pumping the solution in an alkaline solution storage tank 11 or an acidic solution storage tank 12 into the stirring shell 1 by starting a pH value adjusting water pump 8 and matching an electromagnetic valve 10 to mix and adjust the pH value;

and 8: the mixed organic protein and microorganism mixture is discharged through the discharge valve 33.

The above description is only for the purpose of illustrating the present invention and is not intended to limit the scope of the present invention, and any person skilled in the art can substitute or change the technical solution of the present invention and its conception within the scope of the present invention.