CN213012819U - A low-cost liquid fermentation device for aspergillus flavus fermentation - Google Patents

Abstract

The utility model discloses a low-cost liquid fermentation device for aspergillus flavus fermentation in biological fermentation technical field, include: a stirring bin assembly; the discharge assembly is arranged at the bottom of the left side of the stirring bin assembly; the heat exchange tube assembly is arranged in the inner cavity of the stirring bin assembly, and two ends of the heat exchange tube assembly penetrate through the right side wall of the stirring bin assembly; the feeding top cover is arranged at the top of the stirring bin assembly; the exhaust pipeline assembly is mounted at the top of the feeding top cover and communicated with an inner cavity of the stirring bin assembly; the constant-temperature water tank is arranged on the right side of the stirring bin assembly; the subassembly that draws water, the subassembly that draws water is installed the left surface of stirring storehouse subassembly, the utility model discloses can be quick ferment the aspergillus flavus, reduce the fermented cost of aspergillus flavus.

Description

A low-cost liquid fermentation device for aspergillus flavus fermentation

Technical Field

The utility model relates to a biological fermentation technical field specifically is a low-cost liquid fermentation device for aspergillus flavus fermentation.

Background

Aspergillus flavus, fungi imperfecti, a common saprophytic fungus. It is commonly found in mildewed grains, grain products and other mildewed organic matters. The colony grows faster, has loose structure, and has a grayish green surface and a colorless or slightly brown back surface. The bacterial cells are composed of many complex branched hyphae. The vegetative hyphae have a separation; a part of aerial hyphae forms a long and rough conidiophores peduncle, the top of the aerial hyphae forms a flask-shaped or approximately spherical top sac, a plurality of small peduncles (generally double layers) are generated on the surface, and the small peduncles form clusters of spherical conidiophores with rough surfaces. Conidiophores, apical sacs, phimosis and conidia synthesize spore heads, can be used for producing amylase, protease, phosphodiesterase and the like, and are also common strains in the brewing industry.

Fermentation refers to the process by which a person prepares the microbial cells themselves or direct or secondary metabolites by virtue of the life activities of the microorganisms under aerobic or anaerobic conditions.

The existing aspergillus flavus fermentation process is complicated, the mixture of the microorganism bacteria and the aspergillus flavus liquid is not uniform enough, and the heating is not uniform enough, so that the aspergillus flavus fermentation efficiency is low, and the aspergillus flavus fermentation cost is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a low-cost liquid fermentation device for aspergillus flavus fermentation to solve the current aspergillus flavus fermentation process that provides in the above-mentioned background art comparatively loaded down with trivial details, the microorganism fungus is not enough even with the mixture of aspergillus flavus liquid, is heated not enough evenly, thereby leads to aspergillus flavus fermentation efficiency comparatively low, has increased the problem of the cost of aspergillus flavus fermentation.

In order to achieve the above object, the utility model provides a following technical scheme: a low cost liquid fermentation apparatus for aspergillus flavus fermentation, comprising:

a stirring bin assembly;

the discharge assembly is arranged at the bottom of the left side of the stirring bin assembly;

the heat exchange tube assembly is arranged in the inner cavity of the stirring bin assembly, and two ends of the heat exchange tube assembly penetrate through the right side wall of the stirring bin assembly;

the feeding top cover is arranged at the top of the stirring bin assembly;

the exhaust pipeline assembly is mounted at the top of the feeding top cover and communicated with an inner cavity of the stirring bin assembly;

the constant-temperature water tank is arranged on the right side of the stirring bin assembly and is connected with one end of the heat exchange tube assembly;

the water pumping assembly is installed on the left side face of the stirring bin assembly, one end of the water pumping assembly is connected with the constant-temperature water tank, and the other end of the water pumping assembly is connected with the other end of the heat exchange tube assembly.

Preferably, the blender bin assembly comprises:

a magnetic stirrer;

the stirring bin body is arranged at the top of the magnetic stirrer;

the mounting panel, the mounting panel sets up the right side middle-end of stirring storehouse body.

Preferably, the discharge assembly comprises:

a first discharge conduit;

the first discharging pipeline is arranged on an inlet of the discharging pump;

a second discharge conduit mounted on an outlet of the discharge pump.

Preferably, the heat exchange tube assembly comprises:

a heat exchange pipe body;

a first connection pipe provided on one end of the heat exchange pipe body;

a second connection pipe provided on the other end of the heat exchange pipe body.

Preferably, the feed cap comprises:

a top cover body;

the feed inlet, the feed inlet sets up the top left side of top cap body, the bottom of feed inlet runs through the bottom left side of top cap body.

Preferably, the exhaust duct assembly includes:

a first exhaust duct body;

a check valve, an air inlet of which is installed at one end of the first exhaust pipe body;

a second exhaust conduit body, one end of the second exhaust conduit body being mounted on the air outlet of the check valve.

Preferably, the constant-temperature water tank includes:

a constant temperature water tank body;

and the third connecting pipeline is arranged at the top of the left side of the constant-temperature water tank body, and the third connecting pipeline is communicated with the inner cavity of the constant-temperature water tank body.

Preferably, the constant temperature water tank body is formed by water tank, hot plate, refrigeration board, temperature sensor and temperature controller combination, hot plate, refrigeration board and temperature sensor all install the inner chamber of water tank, the temperature controller is installed the outside of water tank, hot plate, refrigeration board and temperature sensor all with temperature controller electric connection.

Preferably, the water pumping assembly comprises:

a first water inlet pipe;

a water inlet of the water pump is arranged at one end of the first water inlet pipeline;

and the second water inlet pipeline is arranged on a water outlet of the water pump.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses can ferment aspergillus flavus fast, reduce the cost of aspergillus flavus fermentation, stir aspergillus flavus liquid through magnetic stirrers, make aspergillus flavus liquid can be even fuse with the microorganism fungus, improve the fermentation speed of aspergillus flavus, reduce the cost of aspergillus flavus fermentation, the heat exchange pipeline body is at the inner chamber of stirring storehouse body, the one end of first inlet channel is pegged graft at the top of constant temperature water tank body and is pegged graft to the inner chamber bottom of constant temperature water tank body through the inner chamber top of constant temperature water tank body, the other end of second inlet channel passes through the bolt and is connected with first connecting pipeline, through first inlet channel, the hot water of water pump and second inlet channel's cooperation use in this internal constant temperature water tank takes out the inner chamber of heat exchange pipeline body, carry out the heat exchange with the raw materials through heat exchange pipeline body, heat the raw materials is heated, heat exchange pipeline body heliciform setting can make the raw materials carry out the, the fermentation speed of aspergillus flavus is improved, the cost of aspergillus flavus fermentation is reduced, the third connecting pipeline is installed at the top of the left side of the constant-temperature water tank body through a bolt, the third connecting pipeline is communicated with the inner cavity of the constant-temperature water tank body, the third connecting pipeline is connected with the second connecting pipeline through a bolt, and hot water after heat exchange enters the inner cavity of the constant-temperature water tank body through the second connecting pipeline and flows back to the third connecting pipeline.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the stirring bin assembly of the present invention;

FIG. 3 is a schematic view of the structure of the discharging assembly of the present invention;

FIG. 4 is a schematic structural view of a heat exchange tube assembly of the present invention;

FIG. 5 is a schematic structural view of the feeding top cover of the present invention;

FIG. 6 is a schematic structural view of the exhaust duct assembly of the present invention;

FIG. 7 is a schematic view of the structure of the constant temperature water tank of the present invention;

fig. 8 is a schematic structural view of the water pumping assembly of the present invention.

In the figure: 100 stirring bin assembly, 110 magnetic stirrers, 120 stirring bin body, 130 mounting plates, 200 discharging assembly, 210 first discharging pipeline, 220 discharging pump, 230 second discharging pipeline, 300 heat exchange pipe assembly, 310 heat exchange pipeline body, 320 first connecting pipeline, 330 second connecting pipeline, 400 feeding top cover, 410 top cover body, 420 feeding port, 500 exhaust pipeline assembly, 510 first exhaust pipeline body, 520 check valve, 530 second exhaust pipeline body, 600 constant temperature water tank, 610 constant temperature water tank body, 620 third connecting pipeline, 700 water pumping assembly, 710 first water inlet pipeline, 720 water pump, 730 second water inlet pipeline.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a low-cost liquid fermentation device for aspergillus flavus fermentation, can be quick ferment the aspergillus flavus, reduce the fermented cost of aspergillus flavus, please refer to figure 1, include: stirring bin assembly 100, discharge assembly 200, heat exchange tube assembly 300, feeding top cover 400, exhaust duct assembly 500, constant temperature water tank 600 and water pumping assembly 700;

referring to fig. 1-2, the blender bin assembly 100 includes:

the aspergillus flavus liquid is stirred by the magnetic stirrer 110, so that the aspergillus flavus liquid can be uniformly fused with the microorganism bacteria, the fermentation speed of the aspergillus flavus is improved, and the fermentation cost of the aspergillus flavus is reduced;

the stirring bin body 120 is arranged at the top of the magnetic stirrer 110;

the mounting plate 130 is arranged at the right middle end of the stirring bin body 120, and the mounting plate 130 and the stirring bin body 120 are integrally processed;

referring to fig. 1-3, a discharge assembly 200 is installed at the bottom of the left side of the stirring bin assembly 100, and the discharge assembly 200 includes:

the first discharging pipeline 210 is installed at the bottom of the left side of the stirring bin body 120 through a bolt, and the first discharging pipeline 210 is communicated with the inner cavity of the stirring bin body 120;

the first discharge pipe 210 is mounted on an inlet of the discharge pump 220 by bolts;

the second discharging pipeline 230 is installed on the outlet of the discharging pump 220 through a bolt, and aspergillus flavus fermented in the inner cavity of the stirring bin body 120 is discharged through the matching use of the first discharging pipeline 210, the discharging pump 220 and the second discharging pipeline 230;

referring to fig. 1, 2 and 4, the heat exchange tube assembly 300 is installed in the inner cavity of the stirring bin assembly 100, two ends of the heat exchange tube assembly 300 penetrate through the right side wall of the stirring bin assembly 100, and the heat exchange tube assembly 300 includes:

the heat exchange pipeline body 310 is arranged in the inner cavity of the stirring bin body 120, and the spiral arrangement of the heat exchange pipeline body 310 can enable the raw materials to be uniformly heated, so that the fermentation speed of the aspergillus flavus is improved, and the fermentation cost of the aspergillus flavus is reduced;

the first connecting pipe 320 is arranged at one end of the heat exchange pipe body 310, the first connecting pipe 320 and the heat exchange pipe body 310 are integrally processed, the first connecting pipe 320 is installed at the top of the right side of the stirring bin body 120 through a bolt, and hot water enters the inner cavity of the heat exchange pipe body 310 through the first connecting pipe 320;

the second connecting pipe 330 is arranged at the other end of the heat exchange pipe body 310, the second connecting pipe 330 and the heat exchange pipe body 310 are integrally processed, the second connecting pipe 330 is installed at the bottom of the right side of the stirring bin body 120 through a bolt, and hot water after heat exchange enters an inner cavity of the second connecting pipe 330 through the heat exchange pipe body 310 and is discharged;

referring to fig. 1, 2 and 5, a feeding cap 400 is installed on the top of the stirring bin assembly 100, and the feeding cap 400 includes:

the top cover body 410 is installed on the top of the stirring bin body 120 through bolts;

the feed inlet 420 is arranged on the left side of the top cover body 410, the bottom of the feed inlet 420 penetrates through the left side of the bottom of the top cover body 410, the feed inlet 420 and the top cover body 410 are integrally processed, and raw materials enter the inner cavity of the stirring bin body 120 through the feed inlet 420;

referring to fig. 1, 2, 5 and 6, an exhaust duct assembly 500 is installed on the top of the feeding top cover 400, the exhaust duct assembly 500 is communicated with the inner cavity of the stirring bin assembly 100, and the exhaust duct assembly 500 includes:

one end of the first exhaust duct body 510 is inserted at the right side of the top cover body 410, the first exhaust duct body 510 penetrates through the right side of the bottom of the top cover body 410, the first exhaust duct body 510 is communicated with the inner cavity of the stirring bin body 120, and redundant gas expanded by heat in the stirring bin body 120 enters the inner cavity of the first exhaust duct body 510;

an air inlet of the check valve 520 is installed at the other end of the first exhaust duct body 510 by a bolt, and surplus air enters an inner cavity of the check valve 520 through the first exhaust duct body 510, and the check valve 520 can prevent external air from entering the inner cavity of the stirring bin body 120;

one end of the second exhaust duct body 530 is mounted on the air outlet of the check valve 520 through a bolt, and the first exhaust duct body 510, the check valve 520 and the second exhaust duct body 530 are used in cooperation to discharge the excess gas expanded by heat in the stirring bin body 120 to the outside air, so as to maintain the stability of the air pressure in the stirring bin body 120;

referring to fig. 1, 2, 4 and 7, a constant temperature water tank 600 is disposed at the right side of the stirring bin assembly 100, the constant temperature water tank 600 is connected to one end of the heat exchange tube assembly 300, and the constant temperature water tank 600 includes:

the constant-temperature water tank body 610 is arranged on the right side of the stirring bin body 120, the constant-temperature water tank body 610 is formed by combining a water tank, a heating plate, a refrigerating plate, a temperature sensor and a temperature controller, the heating plate, the refrigerating plate and the temperature sensor are all arranged in an inner cavity of the water tank, the temperature controller is arranged on the outer side of the water tank, and the heating plate, the refrigerating plate and the temperature sensor are all electrically connected with the temperature controller;

the third connecting pipeline 620 is installed at the top of the left side of the constant temperature water tank body 610 through a bolt, the third connecting pipeline 620 is communicated with the inner cavity of the constant temperature water tank body 610, the third connecting pipeline 620 is connected with the second connecting pipeline 330 through a bolt, and hot water after heat exchange enters the third connecting pipeline 620 through the second connecting pipeline 330 and flows back to the inner cavity of the constant temperature water tank body 610;

referring to fig. 1, 2, 4, 7 and 8, a water pumping assembly 700 is installed at a left side surface of the stirring bin assembly 100, one end of the water pumping assembly 700 is connected to the constant temperature water tank 600, the other end of the water pumping assembly 700 is connected to the other end of the heat exchanging pipe assembly 300, and the water pumping assembly 700 includes:

one end of the first water inlet pipe 710 is inserted into the top of the constant temperature water tank body 610 and inserted into the bottom of the inner cavity of the constant temperature water tank body 610 through the top of the inner cavity of the constant temperature water tank body 610;

a water inlet of the water pump 720 is connected with the other end of the first water inlet pipe 710 through a bolt;

the one end of second inlet channel 730 passes through the bolt and installs on the delivery port of water pump 720, and the other end of second inlet channel 730 passes through the bolt to be connected with first connecting pipe 320, uses the inner chamber of taking out the hot water in the constant temperature water tank body 610 to heat exchange pipeline body 310 through the cooperation of first inlet channel 710, water pump 720 and second inlet channel 730, carries out the heat exchange with the raw materials through heat exchange pipeline body 310, heats the raw materials.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the description of such combinations is not exhaustive in the present specification only for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (9)

1. The utility model provides a low-cost liquid fermentation device for aspergillus flavus fermentation which characterized in that: the method comprises the following steps:

a stirring bin assembly (100);

the discharge assembly (200), the discharge assembly (200) is installed at the bottom of the left side of the stirring bin assembly (100);

the heat exchange tube assembly (300) is installed in the inner cavity of the stirring bin assembly (100), and two ends of the heat exchange tube assembly (300) penetrate through the right side wall of the stirring bin assembly (100);

a feeding top cover (400), wherein the feeding top cover (400) is installed at the top of the stirring bin assembly (100);

the exhaust pipeline assembly (500) is installed at the top of the feeding top cover (400), and the exhaust pipeline assembly (500) is communicated with the inner cavity of the stirring bin assembly (100);

the constant-temperature water tank (600) is arranged on the right side of the stirring bin assembly (100), and the constant-temperature water tank (600) is connected with one end of the heat exchange tube assembly (300);

the water pumping assembly (700) is installed on the left side face of the stirring bin assembly (100), one end of the water pumping assembly (700) is connected with the constant-temperature water tank (600), and the other end of the water pumping assembly (700) is connected with the other end of the heat exchange tube assembly (300).

2. The low-cost liquid fermentation apparatus for Aspergillus flavus fermentation of claim 1, wherein: the stirring bin assembly (100) comprises:

a magnetic stirrer (110);

the stirring bin body (120), the stirring bin body (120) is arranged at the top of the magnetic stirrer (110);

the mounting plate (130), mounting plate (130) set up the right side middle-end in stirring storehouse body (120).

3. The low-cost liquid fermentation apparatus for Aspergillus flavus fermentation of claim 1, wherein: the discharge assembly (200) comprises:

a first discharge conduit (210);

a discharge pump (220), the first discharge conduit (210) being mounted on an inlet of the discharge pump (220);

a second discharge conduit (230), the second discharge conduit (230) being mounted on an outlet of the discharge pump (220).

4. The low-cost liquid fermentation apparatus for Aspergillus flavus fermentation of claim 1, wherein: the heat exchange tube assembly (300) includes:

a heat exchange tube body (310);

a first connection pipe (320), the first connection pipe (320) being disposed on one end of the heat exchange pipe body (310);

a second connection pipe (330), the second connection pipe (330) being disposed on the other end of the heat exchange pipe body (310).

5. The low-cost liquid fermentation apparatus for Aspergillus flavus fermentation of claim 1, wherein: the feed header (400) comprises:

a cap body (410);

the feeding hole (420), the feeding hole (420) is arranged on the left side of the top cover body (410), and the bottom of the feeding hole (420) penetrates through the left side of the bottom of the top cover body (410).

6. The low-cost liquid fermentation apparatus for Aspergillus flavus fermentation of claim 1, wherein: the exhaust conduit assembly (500) comprises:

a first exhaust conduit body (510);

a check valve (520), an air inlet of the check valve (520) being installed at one end of the first exhaust duct body (510);

a second exhaust duct body (530), one end of the second exhaust duct body (530) being installed on an air outlet of the check valve (520).

7. The low-cost liquid fermentation apparatus for Aspergillus flavus fermentation of claim 1, wherein: the constant-temperature water tank (600) includes:

a constant temperature water tank body (610);

the third connecting pipeline (620), the third connecting pipeline (620) is installed the left side top of constant temperature water tank body (610), third connecting pipeline (620) with the inner chamber of constant temperature water tank body (610) link up mutually.

8. The low-cost liquid fermentation apparatus for Aspergillus flavus fermentation of claim 7, wherein: constant temperature water tank body (610) is formed by water tank, hot plate, refrigeration board, temperature sensor and temperature controller combination, hot plate, refrigeration board and temperature sensor all install the inner chamber of water tank, the temperature controller is installed the outside of water tank, hot plate, refrigeration board and temperature sensor all with temperature controller electric connection.

9. The low-cost liquid fermentation apparatus for Aspergillus flavus fermentation of claim 1, wherein: the water pumping assembly (700) comprises:

a first water inlet conduit (710);

a water pump (720), wherein a water inlet of the water pump (720) is arranged at one end of the first water inlet pipeline (710);

a second water inlet pipe (730), wherein the second water inlet pipe (730) is arranged on the water outlet of the water pump (720).

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