CN219010274U - Microecological preparation fermentation, filling system - Google Patents

Abstract

The utility model relates to a microecological preparation fermentation and filling system, which comprises a stirring unit and a fermentation unit; the stirring unit comprises a plurality of stirring barrels, a charging port is arranged at the top of each stirring barrel, a water inlet is arranged at the upper part of each stirring barrel and is communicated with a tap water pipeline through a first pipeline, a water outlet is arranged at the bottom of each stirring barrel and is connected with the inlet end of the first pump body through a second pipeline; the fermentation unit comprises a plurality of fermentation barrels, the top of each fermentation barrel is provided with a liquid inlet, the bottom of each fermentation barrel is provided with a liquid outlet, the liquid inlet is connected with the outlet end of the first pump body through a third pipeline, and the liquid outlet is connected with the inlet end of the second pump body through a fourth pipeline; electromagnetic valves are arranged on the first pipeline, the second pipeline, the third pipeline and the fourth pipeline. The utility model is beneficial to mass production, has simple operation and saves labor.

Description

Microecological preparation fermentation, filling system

Technical Field

The utility model relates to the technical field of preparation of microecologics, in particular to a microecologics fermentation and filling system.

Background

With the continuous expansion of the scale of aquaculture industry, the current situations of high-density cultivation modes, single cultivation varieties and the like cause the imbalance of cultivation ecological environment, and various diseases are frequent. Meanwhile, the long-term and large-scale use of chemical medicines such as antibiotics not only causes the drug resistance of part of pathogenic bacteria, but also damages the ecological environment of normal flora in the digestive tract of aquatic animals, so that the aquatic animals have an immunosuppression effect. The accumulation of antibiotics in aquatic animals is also a potential threat to human health. Thus, aquaculture must travel a sustainable development path.

The microbial ecological agent is a living microbial agent prepared by culturing beneficial microbial strains selected from natural environment. Microecologics are currently divided into 3 categories, namely probiotics, prebiotics and synbiotics. The microecological preparation has the following functions:

first, at present, aquaculture industry develops rapidly, and aquaculture technology is also innovatively improved. However, there are local waters where environmental conditions deteriorate, resulting in a limited progress in the aquaculture industry. Thus, drugs for regulating water quality are favored in the market. The microecological preparation is used for purifying water quality, and has the characteristics of no drug residue, no pollution, no drug resistance, convenient use and environmental protection. Compared with traditional medicines, the microecological preparation is more acceptable by the market.

Second, the microecological formulation has good effect in improving water. After the beneficial bacteria in the microecological preparation enter the water body, the beneficial bacteria can decompose organic matters in residual baits, feces, remains and the like in the water body through oxidation, ammoniation, phosphating and the like, so that harmful substances generated in the reaction process are reduced. In addition, the decomposed substances can promote the growth of plankton such as algae, and the plankton is beneficial to improving the water quality, and the substances are provided for the baits of the aquaculture animals, so that the circulation of the substances in the water body is greatly promoted.

Thirdly, the microecological preparation can be added into feed, so that the palatability of the feed can be improved, the immunity of the aquaculture animals can be enhanced, the disease resistance can be improved, and the microecological preparation can be even used as an opening material for young aquaculture animals.

In summary, the microecological preparation seems to be more in line with the development trend of green circulation than the traditional medicines, and is more widely used in aquaculture.

At present, the fermentation process of the microecological preparation is not unified standard and cannot be quantized, so that the large-scale mass production cannot be realized. In addition, the fermentation method of the microecological preparation is relatively original, the operation is complex, a great deal of labor is required, and once the microecological preparation is used on a large scale, the production requirement cannot be met.

Disclosure of Invention

Aiming at the defects in the prior art, the technical problem to be solved by the utility model is to provide a microecological preparation fermentation and filling system which is beneficial to large-scale mass production, is simple to operate and saves labor.

In order to solve the technical problems, the utility model provides a microecological preparation fermentation and filling system, which comprises a stirring unit and a fermentation unit; the stirring unit comprises a plurality of stirring barrels, a charging port is arranged at the top of each stirring barrel, a water inlet is arranged at the upper part of each stirring barrel and is communicated with a tap water pipeline through a first pipeline, a water outlet is arranged at the bottom of each stirring barrel and is connected with the inlet end of the first pump body through a second pipeline; the fermentation unit comprises a plurality of fermentation barrels, the top of each fermentation barrel is provided with a liquid inlet, the bottom of each fermentation barrel is provided with a liquid outlet, the liquid inlet is connected with the outlet end of the first pump body through a third pipeline, and the liquid outlet is connected with the inlet end of the second pump body through a fourth pipeline; electromagnetic valves are arranged on the first pipeline, the second pipeline, the third pipeline and the fourth pipeline.

Preferably, the first pipeline comprises a first main pipe and a plurality of first branch pipes connected in parallel on the first main pipe, the first main pipe is communicated with the tap water pipeline, the first branch pipes are connected with the water inlets in a one-to-one correspondence manner, and the first branch pipes are provided with the electromagnetic valves.

Preferably, the second pipeline comprises a second main pipe and a plurality of second branch pipes connected in parallel on the second main pipe, the second main pipe is connected with the inlet end of the first pump body, the second branch pipes are connected with the water outlets in one-to-one correspondence, and the electromagnetic valves are arranged on the second branch pipes.

Preferably, the third pipeline comprises a third main pipe and a plurality of third branch pipes connected in parallel on the third main pipe, the third main pipe is connected with the outlet end of the first pump body, and the electromagnetic valve is arranged on the third main pipe; the third branch pipes are communicated with the liquid inlets in a one-to-one correspondence mode.

Preferably, the fourth pipeline comprises a fourth main pipe and a plurality of fourth branch pipes connected in parallel on the fourth main pipe, the fourth main pipe is connected with the inlet end of the second pump body, the electromagnetic valves are arranged on the fourth main pipe, and the fourth branch pipes are communicated with the liquid discharge ports in a one-to-one correspondence manner.

Preferably, the top of the stirring barrel is also provided with a stirring port for installing a stirrer.

Preferably, a lamp tube is arranged in the fermentation barrel along the vertical direction.

Preferably, the stirring barrel is placed on a first bracket, and a first abdication opening is arranged on the first bracket at a position corresponding to the water outlet.

Preferably, the fermentation barrel is placed on a second support, and a second abdication port is arranged on the second support at a position corresponding to the liquid outlet.

Preferably, the second branch pipe is connected with an emptying pipe, the other end of the emptying pipe is communicated with the sewage pool, and the electromagnetic valve is also arranged on the emptying pipe.

The utility model has the following beneficial effects: in the utility model, corresponding stirring units and fermentation units are arranged for the same strain, the strain and water are stirred in stirring barrels of the stirring units, the strain and the water are sequentially injected into corresponding fermentation barrels through water outlets, second pipelines, first pump bodies and third pipelines after the stirring is finished, and after the fermentation is finished, the fermented microecologics can be filled into corresponding storage barrels through the second pump bodies and fourth pipelines. Therefore, the stirring barrel and the fermentation barrel are arranged, and the pump body and the corresponding pipeline are connected in series, so that the large-scale mass production is facilitated, the operation is simple, and the labor is saved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a schematic diagram of a fermentation and filling system for a microecological preparation according to an embodiment of the present utility model;

FIG. 2 is a second schematic diagram of a fermentation and filling system for a microecological preparation according to an embodiment of the present utility model;

FIG. 3 is a front view of a mixing drum according to an embodiment of the present utility model;

FIG. 4 is a top view of a mixing drum according to an embodiment of the present utility model;

FIG. 5 is a schematic diagram of a fermenter according to an embodiment of the present utility model;

FIG. 6 is a schematic diagram of another fermenter according to an embodiment of the present utility model.

Reference numerals:

1-a stirring barrel; 11-a charging port; 12-water inlet; 13-a water outlet; 14-a stirring port; 15-a first scaffold; 2-a first pump body; 3-a first main pipe; 31-a first branch; 4-a second main pipe; 41-a second branch pipe; 5-a fermentation barrel; 51-a liquid inlet; 52-a liquid outlet; 53-a second scaffold; 54-lamp tube; 6-a second pump body; 7-a third main pipe; 71-a third branch pipe; 8-a fourth main pipe; 81-fourth branch pipe.

Detailed Description

Here, it is to be noted that the functions, methods, and the like related to the present utility model are merely conventional adaptive applications of the prior art. The present utility model is therefore an improvement over the prior art in that the connection between hardware is essentially not a function, method itself, i.e. the present utility model, although it relates to a point of function, method, does not involve the improvement proposed for the function, method itself. The description of the function and the method of the utility model is for better explaining the utility model so as to better understand the utility model.

Embodiments of the technical scheme of the present utility model will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and thus are merely examples, and are not intended to limit the scope of the present utility model.

It is noted that unless otherwise indicated, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model pertains.

As shown in fig. 1, 2, 3, 4, 5 and 6, the present embodiment provides a fermentation and filling system for a microecological preparation, where the system correspondingly sets a corresponding number of subsystems according to the number of fermented strains, and each subsystem includes a stirring unit and a fermentation unit. In this example, there are three species, lactic acid bacteria, EM bacteria and photosynthetic bacteria, respectively.

The stirring unit comprises a plurality of stirring barrels 1, a charging port 11 is arranged at the top of each stirring barrel 1, a water inlet 12 is arranged at the upper part of each stirring barrel 1, and the water inlet 12 is communicated with a tap water pipeline through a first pipeline; the bottom of the stirring barrel 1 is provided with a water outlet 13, and the water outlet 13 is connected with the inlet end of the first pump body 2 through a second pipeline. Specifically, the first pipeline comprises a first main pipe 3 and a plurality of first branch pipes 31 connected in parallel on the first main pipe 3, the first main pipe 3 is communicated with a tap water pipeline, the first branch pipes 31 are connected with the water inlets 12 in a one-to-one correspondence manner, and electromagnetic valves are arranged on the first branch pipes 31. The second pipeline comprises a second main pipe 4 and a plurality of second branch pipes 41 connected in parallel on the second main pipe 4, the second main pipe 4 is connected with the inlet end of the first pump body 2, the second branch pipes 41 are connected with the water outlets 13 in one-to-one correspondence, and electromagnetic valves are arranged on the second branch pipes 41.

In this embodiment, there are three stirring tanks corresponding to the stirring unit of lactic acid bacteria, three stirring tanks corresponding to the stirring unit of EM bacteria, and two stirring tanks corresponding to the stirring unit of photosynthetic bacteria. The stirring barrels 1 corresponding to different strains can share one first main pipe 3. In practice, tap water is injected into the stirring vessel 1 through the first main pipe 3 and the corresponding first branch pipe 31, and a raw material such as a seed culture is added into the stirring vessel 1 through the feed port 11. In addition, the top of the stirring barrel 1 is also provided with a stirring port 14 for installing a stirrer so as to stir the strains, and the stirred liquid can be discharged through a water outlet 13 and conveyed to the fermentation unit through the first pump body 2.

Further, an evacuation pipe is connected to the second branch pipe 41 for evacuating the liquid in the corresponding stirring vessel 1 so as to clean the stirring vessel.

The fermentation unit comprises a plurality of fermentation barrels 5, wherein a liquid inlet 51 is formed in the top of each fermentation barrel 5, a liquid outlet 52 is formed in the bottom of each fermentation barrel, the liquid inlet 51 is connected with the outlet end of the first pump body 2 through a third pipeline, and the liquid outlet 52 is connected with the inlet end of the second pump body 6 through a fourth pipeline. Specifically, the third pipeline comprises a third main pipe 7 and a plurality of third branch pipes 71 connected in parallel to the third main pipe 7, the third main pipe 7 is connected with the outlet end of the first pump body 2, and an electromagnetic valve is arranged on the third main pipe 7; the third branch pipes 71 are communicated with the liquid inlets 51 in one-to-one correspondence. The fourth pipeline comprises a fourth main pipe 8 and a plurality of fourth branch pipes 81 connected in parallel to the fourth main pipe 8, the fourth main pipe 8 is connected with the inlet end of the second pump body 6, electromagnetic valves are arranged on the fourth main pipe 8, and the fourth branch pipes 81 are communicated with the liquid drain ports 52 in a one-to-one correspondence manner.

In this example, there are 32 fermentation tubes corresponding to photosynthetic bacteria, and 16 fermentation tubes corresponding to EM bacteria and lactic acid bacteria. After the fermentation liquor in the stirring barrel 1 is injected into the corresponding fermentation barrel 5 through the corresponding first pump body 2, the fermentation liquor is sealed and fermented in the fermentation barrel, and after the fermentation is completed, the electromagnetic valve on the fourth main pipe 8 can be opened according to the corresponding fermentation time of the strain, so that the microecologics in the fermentation barrel are filled into the independent preservation barrel, and the use is convenient. Therefore, the embodiment can realize large-scale operation of fermentation and filling, and is convenient for mass production.

Specifically, the light tube 54 is further provided in the vertical direction in the fermenter 5 corresponding to the photosynthetic bacteria so that the photosynthetic bacteria can be fermented normally.

To facilitate the installation of the second branch pipe 41 and the fourth branch pipe 81, the agitator tank 1 of the present embodiment is placed on the first frame 15, and the fermenter 5 is placed on the second frame 53. Wherein, a first yielding port is disposed on the first support 15 corresponding to the water outlet 13, a second yielding port is disposed on the second support 53 corresponding to the liquid outlet 52, the second branch pipe 41 may be connected to the water outlet 13 through the first yielding port, and the fourth branch pipe 81 may be connected to the liquid outlet 52 through the second yielding port.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced with equivalents; such modifications and substitutions do not depart from the spirit of the utility model, and are intended to be included within the scope of the appended claims and description.

Claims (10)

1. A microecological agent fermentation, filling system, comprising:

a stirring unit and a fermentation unit;

the stirring unit comprises a plurality of stirring barrels, a charging port is arranged at the top of each stirring barrel, a water inlet is arranged at the upper part of each stirring barrel and is communicated with a tap water pipeline through a first pipeline, a water outlet is arranged at the bottom of each stirring barrel and is connected with the inlet end of the first pump body through a second pipeline;

the fermentation unit comprises a plurality of fermentation barrels, the top of each fermentation barrel is provided with a liquid inlet, the bottom of each fermentation barrel is provided with a liquid outlet, the liquid inlet is connected with the outlet end of the first pump body through a third pipeline, and the liquid outlet is connected with the inlet end of the second pump body through a fourth pipeline;

electromagnetic valves are arranged on the first pipeline, the second pipeline, the third pipeline and the fourth pipeline.

2. The microecological formulation fermentation, filling system according to claim 1, wherein:

the first pipeline comprises a first main pipe and a plurality of first branch pipes connected in parallel on the first main pipe, the first main pipe is communicated with the tap water pipeline, the first branch pipes are connected with the water inlets in one-to-one correspondence, and the electromagnetic valves are arranged on the first branch pipes.

3. The microecological formulation fermentation, filling system according to claim 1, wherein:

the second pipeline comprises a second main pipe and a plurality of second branch pipes connected in parallel on the second main pipe, the second main pipe is connected with the inlet end of the first pump body, the second branch pipes are connected with the water outlets in one-to-one correspondence, and the electromagnetic valves are arranged on the second branch pipes.

4. The microecological formulation fermentation, filling system according to claim 1, wherein:

the third pipeline comprises a third main pipe and a plurality of third branch pipes connected in parallel on the third main pipe, the third main pipe is connected with the outlet end of the first pump body, and the electromagnetic valve is arranged on the third main pipe; the third branch pipes are communicated with the liquid inlets in a one-to-one correspondence mode.

5. The microecological formulation fermentation, filling system according to claim 1, wherein:

the fourth pipeline comprises a fourth main pipe and a plurality of fourth branch pipes connected in parallel to the fourth main pipe, the fourth main pipe is connected with the inlet end of the second pump body, the electromagnetic valves are arranged on the fourth main pipe, and the fourth branch pipes are communicated with the liquid discharge ports in a one-to-one correspondence manner.

6. The microecological formulation fermentation, filling system according to claim 1, wherein:

the top of agitator still is provided with the stirring mouth that is used for installing the agitator.

7. The microecological formulation fermentation, filling system according to claim 1, wherein:

and a lamp tube is arranged in the fermentation barrel along the vertical direction.

8. The microecological formulation fermentation, filling system according to claim 1, wherein:

the stirring barrel is placed on a first support, and a first abdication port is arranged at the position, corresponding to the water outlet, on the first support.

9. The microecological formulation fermentation, filling system according to claim 1, wherein:

the fermentation barrel is placed on a second support, and a second abdication port is arranged at the position, corresponding to the liquid discharge port, on the second support.

10. A microecological agent fermentation, filling system according to claim 3, wherein:

the second branch pipe is connected with an emptying pipe, the other end of the emptying pipe is communicated with the sewage pool, and the emptying pipe is also provided with the electromagnetic valve.

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