CN210367709U - Device of high-efficient solid state fermentation microorganism inoculation measurement - Google Patents

Abstract

The utility model discloses a device for high-efficiency solid state fermentation microorganism inoculation metering, which comprises a hot water tank, wherein the outer side wall of the hot water tank is provided with a shell, the top of the hot water tank is connected with a water supply pipeline with a control valve, the outer wall of the hot water tank is provided with an electric heating element, and a temperature sensor is also arranged in the hot water tank; the bottom of the hot water tank is connected with the mixed inoculation equipment through a first pipeline, a first metering pump is arranged on the first pipeline, the bottom of the hot water tank is also connected with a strain tank through a second pipeline, and a second metering pump is arranged on the second pipeline; the top of the strain tank is provided with a motor, the motor is connected with a stirring shaft, and the stirring shaft is provided with a stirring assembly; the bottom of the strain tank is connected with a weighing assembly through a bacterium liquid discharge pipe, and the weighing assembly is connected with a mixed inoculation device through a third pipeline. The utility model discloses a mode of weighing subassembly and first metering pump control bacterial liquid and hot water addition replaces manual weighing, simplifies manual operation, improves production efficiency, and the hot water volume and the bacterial liquid volume that material inoculation process added are more accurate.

Description

Device of high-efficient solid state fermentation microorganism inoculation measurement

Technical Field

The utility model relates to a solid state fermentation equipment field, especially a device of high-efficient solid state fermentation microorganism inoculation measurement.

Background

In the field of solid-state fermentation, the link of microbial inoculation on materials is very important, the influence of the activation degree and the quantity of microbial strains and the initial material temperature of the materials on the initial fermentation state of the solid-state fermentation is large, for example, in the production of solid-state fermentation feed, particularly in the process of mixed fermentation, a certain amount of microbial liquid and a certain amount of hot water need to be respectively sprayed into mixed inoculation equipment, so that the fermentation enzymolysis degree of natural materials is deepened under the action of microorganisms and rich enzymes, and finally the solid-state fermentation feed is obtained. In actual solid-state fermented feed production, a certain amount of microbial liquid and a certain amount of hot water are respectively weighed by manpower and then are put into a mixing inoculation device for mixed fermentation, and a manual feeding mode is adopted, so that on one hand, the production efficiency is low, on the other hand, the materials are fed again by manual weighing, fatigue can be generated after repeated multiple work, the condition of large quantity or small quantity is easy to occur, and further the product quality is influenced.

SUMMERY OF THE UTILITY MODEL

The present invention aims to solve at least one of the above-mentioned technical problems in the related art to a certain extent. Therefore, the utility model provides a device of high-efficient solid state fermentation microbial inoculation measurement, the device replace artifical microorganism fungus liquid and the hot water volume of weighing and drop into automatically and mix inoculation equipment through machinery, alleviate intensity of labour, improve production efficiency.

The utility model provides a device for high-efficiency solid state fermentation microorganism inoculation metering, which comprises a hot water tank and a strain tank, wherein the outer side wall of the hot water tank is provided with a shell, the top of the hot water tank is connected with a water supply pipeline with a control valve, a plurality of grooves are sequentially arranged on the outer wall of the hot water tank along the height direction of the hot water tank, the grooves are arranged around the outer side wall of the hot water tank, the grooves are recessed into the hot water tank, each groove is internally provided with an electric heating element, the hot water tank is also internally provided with a temperature sensor, and the temperature sensor and the electric heating elements are all electrically connected with a controller; the bottom of the hot water tank is provided with a hot water outlet, the hot water outlet is connected with the mixed inoculation equipment through a first pipeline, a first electromagnetic valve and a first metering pump are sequentially arranged on the first pipeline, the hot water outlet is also connected with the strain tank through a second pipeline, and a second electromagnetic valve and a second metering pump are arranged on the second pipeline; a strain inlet is formed in the top of the strain tank, a motor is further arranged on the top of the strain tank, an output shaft of the motor is connected with a stirring shaft located in the strain tank, and a stirring assembly is arranged on the stirring shaft; the bottom of the strain tank is connected with a weighing assembly through a strain liquid discharge pipe, a third electromagnetic valve is arranged on the strain liquid discharge pipe, and the weighing assembly is connected with the mixed inoculation equipment through a third pipeline; the control valve, the first electromagnetic valve, the first metering pump, the second electromagnetic valve, the second metering pump and the third electromagnetic valve are all connected with the controller.

The device for high-efficiency solid-state fermentation microorganism inoculation metering at least has the following beneficial effects: the groove is formed in the outer wall of the hot water tank, so that the electric heating element can be conveniently placed, the heating effect in the groove is better, the temperature of water can be rapidly increased, and the water heating efficiency is improved; the temperature sensor is arranged in the hot water tank and is associated with the electric heating element, so that the water temperature is kept in the range of the optimum growth and reproduction temperature of microbial strains; a hot water outlet of the hot water tank is communicated with the mixed inoculation equipment through a first pipeline, and a first metering pump on the first pipeline can accurately control the amount of hot water conveyed to the mixed inoculation equipment; the top of the strain tank is provided with a strain inlet, microbial strains required by fermentation are added into the strain tank, then a proper amount of hot water for activating the microbial strains at the optimum temperature is added into the strain tank through a second pipeline and a second metering pump, and the required microbial strains are activated into microbial solution with higher concentration through a stirring assembly; the bottom of the strain tank is connected with a weighing assembly through a bacteria liquid discharge pipe, the prepared microbial liquid is weighed by the weighing assembly to obtain the required amount, and the weighed microbial liquid is conveyed to the mixed inoculation equipment through a third pipeline. The utility model discloses a mode of weighing subassembly and first metering pump control bacterial liquid and hot water addition replaces manual weighing, simplifies manual operation, improves production efficiency, and the hot water volume and the bacterial liquid volume that material inoculation process added are more accurate.

According to the utility model, the weighing assembly comprises a first cavity and a second cavity, the top of the first cavity is communicated with the bacteria liquid discharge pipe, the bottom of the first cavity is provided with a weight sensor, the bottom of the first cavity is communicated with the second cavity through a fourth pipeline, and the fourth pipeline is provided with a fourth electromagnetic valve; the bottom of the second cavity is connected with a mixed inoculation device through a third pipeline, and the weight sensor and the fourth electromagnetic valve are electrically connected with the controller.

According to a device of high-efficient solid state fermentation microbial inoculation measurement, the stirring subassembly includes one-level stirring rake, second grade stirring rake and three stopper, one-level stirring rake, second grade stirring rake and three the stopper interval sets up on the (mixing) shaft.

According to the utility model discloses a device of high-efficient solid state fermentation microorganism inoculation measurement, electric heating element is electromagnetic heating coil or electrothermal tube.

According to the utility model discloses a device of high-efficient solid state fermentation microbial inoculation measurement, set up level sensor in the hot-water cylinder, level sensor with the control valve is correlated with, just level sensor with the controller electricity is connected.

According to a device of high-efficient solid state fermentation microbial inoculation measurement, set up the sample pipeline that has first valve on the lateral wall of bacterial jar.

According to a device of high-efficient solid state fermentation microbial inoculation measurement, the inside wall equipartition of bacterial jar has four baffles, the baffle corresponds the stirring subassembly sets up, and through the spliced pole with the inside wall of bacterial jar is connected.

According to the utility model a device of high-efficient solid state fermentation microbial inoculation measurement, the outside parcel of strain jar has the heat preservation.

According to a device of high-efficient solid state fermentation microbial inoculation measurement, the hot-water tank with the blow off pipe that has the second valve is all connected to the bottom of bacterial jar.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic structural diagram of an embodiment of an apparatus for high-efficiency solid-state fermentation microorganism inoculation and metering of the present invention;

FIG. 2 is a schematic view showing the construction of the hot water tank of FIG. 1;

FIG. 3 is a schematic diagram of the seed tank of FIG. 1;

FIG. 4 is a schematic view of the weighing assembly of FIG. 1.

Detailed Description

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1 and 2, an apparatus for efficient solid state fermentation microorganism inoculation metering according to an embodiment of the present invention includes a hot water tank 100 and a strain tank 200, wherein a shell 110 is disposed on an outer sidewall of the hot water tank 100, a water supply pipeline 120 with a control valve is connected to a top of the hot water tank 100, a plurality of grooves 130 are sequentially disposed on an outer wall of the hot water tank 100 along a height direction of the hot water tank 100, the grooves 130 are disposed around the outer sidewall of the hot water tank 100, the grooves 130 are recessed into the hot water tank 100, an electric heating element 300 is disposed in each groove 130, adjacent electric heating elements 300 are connected to each other, a temperature sensor is further disposed in the hot water tank 100, and the temperature sensor and the electric heating element 300 are; a hot water outlet is formed in the bottom of the hot water tank 100, the hot water outlet is respectively connected with a first pipeline 140 and a second pipeline 150 through a tee joint, the first pipeline 140 is connected with the mixed inoculation equipment, a first electromagnetic valve 141 and a first metering pump 142 are sequentially arranged on the first pipeline 140, the second pipeline 150 is connected with the strain tank 200, and a second electromagnetic valve 151 and a second metering pump 152 are arranged on the second pipeline 150; the top of the strain tank 200 is provided with a strain inlet 210, the top of the strain tank 200 is also provided with a motor 220, an output shaft of the motor 220 is connected with a stirring shaft 230 positioned in the strain tank 200, and the stirring shaft 230 is provided with a stirring component; the bottom of the strain tank 200 is connected with a weighing assembly 400 through a bacteria liquid discharge pipe 240, the bacteria liquid discharge pipe 240 is sequentially provided with a third electromagnetic valve 241 and a first centrifugal pump 242, the weighing assembly 400 is connected with the mixed inoculation device through a third pipeline 450, and the third pipeline 450 is sequentially provided with a fifth electromagnetic valve 451 and a second centrifugal pump 452; the control valve, the first electromagnetic valve 141, the first metering pump 142, the second electromagnetic valve 151, the second metering pump 152, the third electromagnetic valve 241 and the fifth electromagnetic valve 451 are all connected with the controller.

Compared with the prior art, the embodiment of the utility model has the advantages that the groove 130 is arranged on the outer wall of the hot water tank 100, so that the electric heating element 300 can be conveniently placed and the heating effect in the groove 130 is better, the temperature of the water can be rapidly increased, the water heating efficiency is improved, the external heating mode is adopted, the phenomenon of short circuit of the electric heating element 300 can be avoided, and substances such as scale and impurities in the hot water tank 100 can be easily cleaned; by providing a temperature sensor in the hot water tank 100, which is associated with the electric heating element 300, it is ensured that the water temperature is maintained in a temperature range in which the optimal growth and propagation of microbial species are achieved; the hot water outlet of the hot water tank 100 is communicated with the mixed inoculation device through the first pipeline 140, and the first metering pump 142 on the first pipeline 140 can accurately control the amount of hot water added to the mixed inoculation device; the top of the strain tank 200 is provided with a strain inlet 210, microbial strains required by fermentation are added into the strain tank 200, then a proper amount of hot water with the optimum temperature for activating the microbial strains is added into the strain tank 200 through a second pipeline 150 and a second metering pump 152, and the required microbial strains are activated through a stirring assembly to prepare microbial solution with higher concentration; the bottom of the strain tank 200 is connected to a weighing module 400 through a bacteria liquid discharge pipe 240, the prepared microbial liquid is weighed by the weighing module 400 to obtain a required amount, and the weighed microbial liquid is conveyed to the mixed inoculation device through a third pipeline 450. The utility model discloses a mode of weighing subassembly 400 and first measuring pump 142 control fungus liquid and hot water addition replaces manual weighing, simplifies manual operation, improves production efficiency, and the hot water volume and the fungus liquid volume that material inoculation process added are more accurate.

The working process of the device is as follows: the water temperature in the hot water tank 100 is first heated to the optimum temperature for activating the microbial strains, the strains are put into the strain tank 200 in the heating process, then the hot water with the appropriate water temperature for activating the microbial strains is added into the strain tank 200 through the second pipeline 150 and the second metering pump 152, the stirring component is driven by the motor 220 to stir so as to activate the required microbial strains to prepare microbial strain liquid with higher concentration, and then the prepared microbial strain liquid is conveyed to the weighing component 400 for weighing and backup. Because the temperature of the soybean meal raw material is lower, if hot water is not added independently in the material inoculation process, the activated microbial liquid is directly adopted, and because the temperature of the microbial liquid is in the optimal temperature range of microorganisms, after the microbial liquid and the soybean meal raw material are mixed, the material temperature of the wet material is far lower than the optimal temperature range of microbial strains. Therefore, before the quantitative activated microbial liquid is added into the mixed inoculation equipment, the quantitative hot water is added into the mixed inoculation equipment through the first pipeline 140 and the first metering pump 142, after the bean pulp raw material and the hot water are uniformly mixed, the wet material is just in the optimum temperature range of the microbial strain, the quantitative activated microbial strain is added into the wet material, the material is basically in the optimum temperature range of the microbial strain, after the microbial strain is inoculated into the material with the optimum growth temperature, the microorganism can rapidly enter the growth and reproduction state on the material, the whole solid state soybean pulp fermentation process can shorten the fermentation period, meanwhile, the microorganism can secrete enzymes with rich metabolism and other beneficial metabolites, the fermentation enzymolysis degree of the soybean pulp raw material is deepened under the action of the microorganisms with rich metabolism and rich enzymes, the finally obtained solid-state fermented feed has good product quality, higher fermentation efficiency and guaranteed quality of the fermented product.

As shown in fig. 4, the weighing assembly 400 includes a first cavity 410 and a second cavity 420, the top of the first cavity 410 is communicated with the bacteria liquid drainage pipe 240, a weight sensor is disposed at the bottom of the first cavity 410, the bottom of the first cavity 410 is communicated with the second cavity 420 through a fourth pipeline 430, and a fourth solenoid valve 431 is disposed on the fourth pipeline 430; the bottom of the second chamber 420 is connected to the mixing and inoculating device through a third pipe 450, and the weight sensor and the fourth solenoid valve 431 are both electrically connected to the controller. By the arrangement, the microbial liquid is conveyed into the first cavity 410 under the action of the second centrifugal pump 452, when the weight sensor detects that the weight of the microbial liquid in the first cavity 410 reaches a set value, a signal is output to the controller, the controller controls the third electromagnetic valve 241 to be closed and controls the fourth electromagnetic valve 431 to be opened, and the weighed microbial liquid is conveyed into the second cavity 420 for material preparation, so that the standby time of the device is shortened, and the production efficiency is further improved. Specifically, in order to facilitate the operator to observe the condition and amount of the microbial solution in the second chamber 420, a strip-shaped transparent window is disposed on the second chamber 420. Further, in order to further confirm the weighing accuracy, scales are arranged on the transparent window, and an operator can obtain corresponding data by observing the scales corresponding to the liquid surface of the microbial liquid in the second cavity 420, so as to confirm whether the weighing is accurate.

As shown in fig. 3, the stirring assembly includes a first-stage stirring paddle 251, a second-stage stirring paddle 252 and three limiting blocks 253, and the first-stage stirring paddle 251, the second-stage stirring paddle 252 and the three limiting blocks are arranged on the stirring shaft 230 at intervals. The first-stage stirring paddle 251 and the second-stage stirring paddle 252 are arranged on the stirring shaft 230 at intervals through splines, one limiting block 253 is arranged between the first-stage stirring paddle 251 and the second-stage stirring paddle 252, and the other two limiting blocks 253 are respectively arranged close to the upper portion and the bottom portion of the strain tank 200. The first-stage stirring paddle 251 and the second-stage stirring paddle 252 are adopted to simultaneously stir the microbial liquid in the strain tank 200, so that the microbial liquid in the strain tank 200 is mixed more uniformly. The first-stage stirring paddle 251 and the second-stage stirring paddle 252 are connected with the stirring shaft 230 through splines, the first-stage stirring paddle 251 and the second-stage stirring paddle 252 are not easy to damage, and the heights of the first-stage stirring paddle 251 and the second-stage stirring paddle 252 float up and down along with the components of strains in the strain tank 200 in the stirring process, so that the stirring efficiency of the microbial liquid is effectively improved.

Preferably, the electric heating element 300 is an electromagnetic heating coil or an electric heating tube. The electromagnetic heating coil and the electric heating tube have higher heat exchange efficiency, and are also provided as other electric heating elements 300. Specifically, as shown in fig. 2, a power plug 111 of the electric heating element 300 is disposed on the casing 110, and the power plug 111 is used for connecting a power supply to supply power.

Preferably, a liquid level sensor is provided in the hot water tank 100, the liquid level sensor is associated with the control valve, and the liquid level sensor is electrically connected with the controller. Thus, the device has an automatic water replenishing function, and when the liquid level sensor cannot detect a signal, the liquid level is proved to be out of a preset range, the controller controls the control valve to be opened, and tap water is replenished into the hot water tank 100.

The stirring condition and the concentration condition of the microbial liquid in the strain tank 200 are detected in a sampling way by operators; a sampling line 270 with a first valve 271 is provided on the side wall of the seed tank 200.

Preferably, four baffles 260 are uniformly distributed on the inner side wall of the strain tank 200, and the baffles 260 are arranged corresponding to the stirring component. Thus, the baffle 260 can prevent the microorganism liquid from generating vortex flow to form a layering phenomenon in the stirring process. Further, the baffle 260 is connected with the inner side wall of the strain tank 200 through a connecting column, so that a gap is formed between the baffle 260 and the inner side wall of the strain tank 200, and the vortex flow generated by the microbial liquid in the stirring process is more effectively avoided. Other numbers of baffles 260 may be selected as desired for practical purposes.

Preferably, the outside of the strain tank 200 is wrapped with a heat-insulating layer to prevent the temperature of the microbial liquid from rapidly decreasing, and the temperature is far lower than the optimal temperature of the microbial strain when the strain tank is added into the mixed inoculation equipment, so that the fermentation effect is influenced.

In order to facilitate the discharge of the sewage generated by the cleaning of the hot water tank 100 and the seed tank 200, a sewage pipe 280 having a second valve 281 is connected to the bottom of each of the hot water tank 100 and the seed tank 200. The sewage pipe 280 is provided at the bottom of the hot water tank 100 and the seed tank 200 to facilitate the discharge of the sewage.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and those skilled in the art can make various modifications and variations; any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a device of high-efficient solid state fermentation microorganism inoculation measurement which characterized in that: the strain tank comprises a hot water tank (100) and a strain tank (200), wherein a shell (110) is arranged on the outer side wall of the hot water tank (100), a water supply pipeline (120) with a control valve is connected to the top of the hot water tank (100), a plurality of grooves (130) are sequentially arranged on the outer wall of the hot water tank (100) along the height direction of the hot water tank (100), the grooves (130) are arranged around the outer side wall of the hot water tank (100), the grooves (130) are recessed into the hot water tank (100), an electric heating element (300) is arranged in each groove (130), a temperature sensor is further arranged in the hot water tank (100), and the temperature sensor and the electric heating element (300) are both electrically connected with a controller; a hot water outlet is formed in the bottom of the hot water tank (100), the hot water outlet is connected with a mixed inoculation device through a first pipeline (140), a first electromagnetic valve (141) and a first metering pump (142) are sequentially arranged on the first pipeline (140), the hot water outlet is also connected with the strain tank (200) through a second pipeline (150), and a second electromagnetic valve (151) and a second metering pump (152) are arranged on the second pipeline (150); a strain inlet (210) is formed in the top of the strain tank (200), a motor (220) is further arranged on the top of the strain tank (200), an output shaft of the motor (220) is connected with a stirring shaft (230) located in the strain tank (200), and a stirring assembly is arranged on the stirring shaft (230); the bottom of the strain tank (200) is connected with a weighing assembly (400) through a bacterium liquid discharge pipe (240), a third electromagnetic valve (241) is arranged on the bacterium liquid discharge pipe (240), and the weighing assembly (400) is connected with the mixed inoculation equipment through a third pipeline (450); the control valve, the first electromagnetic valve (141), the first metering pump (142), the second electromagnetic valve (151), the second metering pump (152) and the third electromagnetic valve (241) are all connected with the controller.

2. An apparatus for efficient solid state fermentation microorganism inoculation metering according to claim 1, wherein: the weighing assembly (400) comprises a first cavity (410) and a second cavity (420), the top of the first cavity (410) is communicated with the bacteria liquid discharge pipe (240), a weight sensor is arranged at the bottom in the first cavity (410), the bottom of the first cavity (410) is communicated with the second cavity (420) through a fourth pipeline (430), and a fourth electromagnetic valve (431) is arranged on the fourth pipeline (430); the bottom of the second cavity (420) is connected with a mixing and inoculating device through a third pipeline (450), and the weight sensor and the fourth solenoid valve (431) are both electrically connected with the controller.

3. An apparatus for efficient solid state fermentation microorganism inoculation metering according to claim 1, wherein: the stirring assembly comprises a first-stage stirring paddle (251), a second-stage stirring paddle (252) and three limiting blocks (253), wherein the first-stage stirring paddle (251), the second-stage stirring paddle (252) and the three limiting blocks (253) are arranged on the stirring shaft (230) at intervals.

4. An apparatus for efficient solid state fermentation microorganism inoculation metering according to claim 1, wherein: the electric heating element (300) is an electromagnetic heating coil or an electric heating tube.

5. An apparatus for efficient solid state fermentation microorganism inoculation metering according to claim 1, wherein: a liquid level sensor is arranged in the hot water tank (100), the liquid level sensor is associated with the control valve, and the liquid level sensor is electrically connected with the controller.

6. An apparatus for efficient solid state fermentation microorganism inoculation metering according to claim 1, wherein: the side wall of the strain tank (200) is provided with a sampling pipeline (270) with a first valve (271).

7. An apparatus for efficient solid state fermentation microorganism inoculation metering according to claim 1, wherein: the inside wall equipartition of bacterial jar (200) has four baffles (260), baffle (260) correspond stirring subassembly sets up, and through the spliced pole with the inside wall of bacterial jar (200) is connected.

8. An apparatus for efficient solid state fermentation microorganism inoculation metering according to claim 1, wherein: the outer side of the strain tank (200) is wrapped with a heat-insulating layer.

9. An apparatus for efficient solid state fermentation microorganism inoculation metering according to claim 1, wherein: the bottom of the hot water tank (100) and the bottom of the strain tank (200) are both connected with a sewage discharge pipe (280) with a second valve (281).

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