CN117925394A - Fodder probiotic breeding device - Google Patents

Abstract

The invention provides a feed probiotic cultivation device, which relates to the technical field of probiotic cultivation and comprises a heat preservation installation part, wherein a closed rotation switching device is arranged on the heat preservation installation part; the method is characterized in that: the heat preservation installation part is provided with a taking auxiliary part in a sliding manner; a cultivation bearing piece is inserted on the closed rotation switching device in a sliding way; the cultivation bearing piece is connected with an isolation auxiliary device through threads; a collecting auxiliary piece is fixedly arranged in the isolation auxiliary device; the utility model provides a sealed rotary switching device is last slidable mounting has the round to seal the protector, can realize supplementary quick filtering nutrient solution culture medium on the one hand, remains the bacterial colony fast, guarantees the efficiency that the bacterial colony draws, adopts this structure to be convenient for carry out aseptic quick isolation more simultaneously, can guarantee sanitary quality, and overall structure is more simple reasonable, has solved current operation loaded down with trivial details and inefficiency, and the bar is inconvenient for the independent heat preservation of a plurality of culture dishes to separate the problem of fungus control simultaneously.

Description

Fodder probiotic breeding device

Technical Field

The invention relates to the technical field of probiotics cultivation, in particular to a feed probiotic cultivation device.

Background

The existing probiotics mixed feed is more and more widely applied, the probiotics fermented feed can reduce the acidity in the stomach of piglets, increase the feed intake of piglets, thereby improving the production performance of the piglets, effectively inhibiting the growth and reproduction of harmful bacteria, controlling diarrhea of the piglets, reducing the use of antibiotics, and in the existing probiotics cultivation process, the time for planting the strains needs to be in a plurality of links such as strain cultivation, separation, screening, cultivation, quality inspection and the like, wherein the devices such as an inoculating loop and the like are needed to assist in separation one by one in the separation work, the existing operation mode is complex and has low efficiency, the independent heat preservation and bacteria isolation control of a plurality of culture dishes is inconvenient, and the disposable placement of different culture dishes at different times is easy to cause cross infection, and meanwhile, the temperature control effect is influenced.

Disclosure of Invention

The invention relates to a feed probiotic cultivation device, which is isolated by an auxiliary device, on one hand, the auxiliary device can be used for rapidly filtering nutrient solution culture medium, rapidly reserving bacterial colonies and guaranteeing the bacterial colony extraction efficiency, and meanwhile, the structure is more convenient for rapid isolation in a sterile mode, so that the sanitary quality can be guaranteed, and the whole structure is simpler and more reasonable.

The invention provides a feed probiotic cultivation device, which particularly comprises a heat preservation installation part, wherein a closed rotation switching device is arranged on the heat preservation installation part; the method is characterized in that: the heat preservation installation part is provided with a taking auxiliary part in a sliding manner; a cultivation bearing piece is inserted on the closed rotation switching device in a sliding way; the cultivation bearing piece is connected with an isolation auxiliary device through threads; a collecting auxiliary piece is fixedly arranged in the isolation auxiliary device; a circle of sealing protection piece is arranged on the sealing rotation switching device in a sliding way; the closure guard is aligned with the isolation assistance device; the picking auxiliary piece is used for electromagnetically absorbing the cultivation bearing piece; the heat preservation installation department includes: the device comprises a rotary mounting shell, a taking auxiliary pipe, a supporting mounting ring, an air inlet mounting pipe and a rotary mounting ring, wherein the rotary mounting shell and the taking auxiliary pipe are of a double-layer heat insulation structure; the bottom of the rotary mounting shell is fixedly provided with a support mounting ring, and the support mounting ring is provided with a circle of through holes; the air inlet installation tube is fixedly installed on the rotary installation shell through a circle of brackets; the rotary mounting ring is fixedly arranged at the bottom of the air inlet mounting pipe.

In at least some embodiments, the isolation assistance device comprises: the device comprises an isolation installation shell and isolation filter paper, wherein threads are arranged on the isolation installation shell; the isolation mounting shell is in threaded connection with the protective cover; the isolation filter paper is fixedly arranged at the bottom of the isolation installation shell; the bottom of the isolation installation shell is of a conical structure; the bottom of the isolation installation shell is provided with a ring magnet.

In at least some embodiments, the incubation carrier comprises: the culture dish, the protective cover and the connecting magnet are connected with each other in a sliding manner, and the culture dish is inserted into a slotted hole formed in the closed rotating block; the slide cover on the culture dish is provided with a protective cover; the protective cover is fixedly embedded with a connecting magnet; the connecting magnet is aligned with the electromagnet.

In at least some embodiments, the insulated mounting further comprises: the observation window is provided with a circle of observation windows which are respectively fixedly embedded at the top of the rotary installation shell.

In at least some embodiments, the pooling aid comprises: the device comprises an auxiliary collecting mounting frame, a rotary mounting shaft and a rotary scraping plate, wherein the auxiliary collecting mounting frame is fixedly welded inside an isolation mounting shell; a rotary mounting shaft is rotatably mounted on the collecting auxiliary mounting frame; a hand wheel is arranged at the top of the rotary mounting shaft; the rotary scraping plate is fixedly arranged at the bottom of the rotary installation shaft; the rotary scraping plate is attached to the isolation filter paper and the isolation installation shell.

In at least some embodiments, the closure guard comprises: the closed sliding column and the electric push rod are slidably arranged on the closed rotating block; the closed sliding column is aligned with a slotted hole arranged on the closed rotating block; the electric push rod is fixedly arranged on the closed sliding column; and an output shaft of the electric push rod is welded inside the closed rotating block.

In at least some embodiments, the closed rotation switching device comprises: a rotary driving motor, a closed rotating block, an electric heating plate and an ultraviolet sterilization lamp; the rotary driving motor is fixedly arranged at the bottom of the rotary mounting shell; the closed rotating block is rotationally attached to the inside of the rotating installation shell; a circle of slotted holes are formed in the closed rotating block; the closed rotating block is fixedly arranged on an output shaft of the rotary driving motor; the electric heating plate is fixedly embedded in the closed rotating block; the electric heating plate is externally connected with a power supply; the ultraviolet sterilizing lamp is provided with a circle, and the circle of ultraviolet sterilizing lamp is respectively and fixedly arranged in the closed rotating block; and the closed rotating block is rotationally connected with a rotating mounting ring.

In at least some embodiments, the closed rotation switching device further comprises: the ventilation auxiliary holes are provided with a circle of ventilation auxiliary holes which are respectively aligned with a circle of slotted holes arranged on the closed rotating block; and the circle of ventilation auxiliary holes are respectively communicated with the air inlet mounting pipe.

In at least some embodiments, the access aid comprises: the sliding closing block is arranged on the taking auxiliary pipe in a sliding manner; the bottom of the sliding closure plug is fixedly provided with an electromagnet, and the electromagnet is externally connected with a control power supply; the hand-held rod is fixedly arranged on the sliding sealing plug.

In at least some embodiments, the closure guard further comprises: the sealing installation cover and the sealing magnet are in sliding connection with the sealing sliding column; a closed magnet is fixedly embedded on the closed installation cover; the sealing installation cover is provided with a rubber coating; the closed magnet is a ring magnet.

The invention provides a feed probiotic cultivation device, which has the following beneficial effects:

The collecting auxiliary piece provided by the invention can realize rapid scraping and collecting of probiotic bacterial colonies in a rotating manner, ensures extraction efficiency after bacterial colony separation, can realize rapid flow division of a culture medium in a filtering manner by matching with the isolating auxiliary device, can retain attached bacterial colonies, does not need to adopt a traditional inoculating loop for separation and extraction, improves the separation efficiency of strains, does not have inoculating rod release, has good sterile effect, plays a positive propulsion role in high-quality cultivation of probiotics, and also increases productivity.

In addition, through the sealed protection piece that adopts the setting, can realize assisting to seal the protection, can effectually prevent to take and keep apart the filter paper and be polluted after keeping apart the installation shell, can effectually guarantee that the probiotic draws the quality, can optimize cultivation technology, more sanitary reasonable, this structure adopts electric propulsion structure simultaneously, convenient to detach and reuse.

In addition, through adopting the heat preservation installation department cooperation that sets up to seal and rotate auto-change over device, can realize assisting to seal heat preservation work, seal simultaneously that the rotor adopts the round slotted hole that sets up, utilize to take the auxiliary pipe, can realize independently singly taking, can guarantee the heat preservation effect, can not lead to losing the temperature, influences bacterial and cultivates the quality.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 is a schematic view showing the overall structure of the cultivation apparatus of the present application;

FIG. 2 is a schematic view showing the overall structure of the bottom of the cultivation apparatus of the present application;

FIG. 3 is a schematic view showing the overall structure of the insulation mounting part of the present application;

FIG. 4 is a cross-sectional view showing the overall structure of the interior of the insulated mounting of the present application;

FIG. 5 is a schematic view showing the overall structure of the closed rotary switching device of the present application

FIG. 6 is a schematic view showing the overall structure of the access aid of the present application;

FIG. 7 shows a schematic view of the overall construction of the incubation carrier of the application;

FIG. 8 is a schematic view showing the overall structure of the isolation assistance apparatus of the present application;

FIG. 9 shows a schematic view of the overall construction of the pooling aid of the present application;

Fig. 10 shows a schematic view of the overall structure of the closure guard of the present application.

List of reference numerals

1. A heat-insulating mounting part; 101. rotating the mounting shell; 102. taking the auxiliary tube; 103. a support mounting ring; 104. an air inlet installation pipe; 105. rotating the mounting ring; 106. an observation window;

2. Closing the rotary switching device; 201. a rotary drive motor; 202. closing the rotating block; 203. an electric heating plate; 204. an ultraviolet germicidal lamp; 205. a ventilation auxiliary hole;

3. taking the auxiliary piece; 301. sliding closure plug; 302. an electromagnet; 303. a hand-held lever;

4. Cultivating the bearing piece; 401. cultivating the dish; 402. a protective cover; 403. a connecting magnet;

5. isolating the auxiliary device; 501. isolating the mounting shell; 502. isolating the filter paper;

6. Pooling aids; 601. collecting an auxiliary mounting frame; 602. rotating the mounting shaft; 603. rotating the scraping plate;

7. a closure guard; 701. closing the sliding column; 702. an electric push rod; 703. closing the mounting cover; 704. and (5) closing the magnet.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present invention fall within the protection scope of the present invention.

Embodiment one: please refer to fig. 1 to 10:

The invention provides a feed probiotic cultivation device, which comprises a heat preservation installation part 1, wherein a closed rotation switching device 2 is arranged on the heat preservation installation part 1; the heat preservation installation part 1 is provided with a taking auxiliary piece 3 in a sliding way; a cultivation bearing piece 4 is inserted on the closed rotation switching device 2 in a sliding way; the cultivation bearing piece 4 is connected with an isolation auxiliary device 5 in a threaded manner; a collecting auxiliary piece 6 is fixedly arranged in the isolation auxiliary device 5; a circle of sealing protection piece 7 is arranged on the sealing rotation switching device 2 in a sliding way; the closing guard 7 is aligned with the isolation assistance device 5; the auxiliary component 3 is taken to electromagnetically absorb the cultivation bearing component 4; the heat-insulating mounting portion 1 includes: the rotary mounting shell 101, the taking auxiliary pipe 102, the supporting mounting ring 103, the air inlet mounting pipe 104 and the rotary mounting ring 105 are of a double-layer heat insulation structure, and the rotary mounting shell 101 and the taking auxiliary pipe 102 are of a double-layer heat insulation structure; the bottom of the rotary mounting shell 101 is fixedly provided with a support mounting ring 103, and the support mounting ring 103 is provided with a circle of through holes; the air inlet mounting tube 104 is fixedly mounted on the rotary mounting shell 101 through a circle of brackets; the rotary mounting ring 105 is fixedly mounted at the bottom of the inlet mounting tube 104.

In the embodiment of the present disclosure, the heat-insulating mounting portion 1 further includes: the observation window 106 is provided with a circle, and the circle of observation window 106 is fixedly embedded at the top of the rotary mounting shell 101 respectively; the closed rotation switching device 2 includes: a rotary drive motor 201, a closed rotating block 202, an electric heating plate 203, and an ultraviolet germicidal lamp 204; the rotary driving motor 201 is fixedly installed at the bottom of the rotary installation case 101; the sealing rotating block 202 is rotationally attached to the inside of the rotating mounting shell 101; a circle of slotted holes are formed in the closed rotating block 202; the closed rotating block 202 is fixedly arranged on the output shaft of the rotary driving motor 201; the electric heating plate 203 is fixedly embedded in the closed rotating block 202; the electric heating plate 203 is externally connected with a power supply; the ultraviolet sterilization lamp 204 is provided with a circle, and the ultraviolet sterilization lamp 204 is fixedly arranged in the closed rotating block 202 respectively; the closed rotating block 202 is rotatably connected with a rotating mounting ring 105; the closed rotation switching device 2 further includes: the ventilation auxiliary holes 205, the ventilation auxiliary holes 205 are provided with a circle, and the circle of ventilation auxiliary holes 205 are respectively aligned with a circle of slotted holes arranged on the closed rotating block 202; a circle of ventilation auxiliary holes 205 are respectively communicated with the air inlet mounting pipes 104; the picking assistance member 3 includes: a sliding closure 301, an electromagnet 302, and a hand-held lever 303, the sliding closure 301 being slidably mounted on the access aid tube 102; the bottom of the sliding closure plug 301 is fixedly provided with an electromagnet 302, and the electromagnet 302 is externally connected with a control power supply; the handheld pole 303 fixed mounting is on sliding closure is blocked 301, through adopting the heat preservation installation department 1 cooperation that sets up to seal and rotate auto-change over device 2, can realize assisting to seal heat preservation work, seal simultaneously round slotted hole that the turning block 202 adopted the setting, utilize to take auxiliary tube 102, can realize independent single taking, can guarantee the heat preservation effect, can not need the case door to open to lead to losing the temperature like traditional incubator to take the culture dish, influence the bacterial and cultivate the quality, adopt the inlet mounting tube 104 that sets up to oxygenate the work simultaneously, overall structure is more reasonable, utilize ventilation auxiliary hole 205 even air guide, pull out sliding closure 301, can draw the bacterial colony through electro-magnet 302 circular magnetism and inhale protective cover 402, the use is simple and convenient.

In the presently disclosed embodiment, the incubation carrier 4 includes: the culture dish 401, the protective cover 402 and the connecting magnet 403, wherein the culture dish 401 is inserted into a slotted hole arranged on the closed rotating block 202 in a sliding manner; the culture dish 401 is provided with a protective cover 402 in a sliding cover manner; the protecting cover 402 is fixedly embedded with a connecting magnet 403; the connecting magnet 403 is aligned with the electromagnet 302; the isolation assistance device 5 includes: an isolation mounting shell 501 and an isolation filter paper 502, wherein threads are arranged on the isolation mounting shell 501; the isolation mounting housing 501 is threadably coupled to the shield cover 402; the isolation filter paper 502 is fixedly arranged at the bottom of the isolation mounting shell 501; the bottom of the isolation mounting shell 501 is of a conical structure; the bottom of the isolation mounting shell 501 is provided with a ring magnet; the pooling aid 6 comprises: the collecting auxiliary mounting frame 601, the rotating mounting shaft 602 and the rotating scraper 603 are fixedly welded inside the isolating mounting shell 501; a rotation mounting shaft 602 is rotatably mounted on the collection auxiliary mounting frame 601; a hand wheel is arranged at the top of the rotary mounting shaft 602; the rotary scraping plate 603 is fixedly arranged at the bottom of the rotary installation shaft 602; rotatory scraper blade 603 paste in keep apart filter paper 502 and keep apart installation shell 501, the collection auxiliary member 6 of setting can realize collecting the probiotic bacterial colony through the quick scraping of pivoted mode, easy operation has guaranteed extraction efficiency after the colony separates, the cooperation adopts isolation auxiliary device 5, can realize quick reposition of redundant personnel with the culture medium through the mode of filtering, remain attached colony, need not to adopt traditional inoculating loop to separate and draw, the separation efficiency of bacterial has been improved, this structure also does not have the inoculating stick simultaneously and releases, aseptic effect is good, whole simple operation can drive rotatory scraper blade 603 through the rotation installation axle 602 that rotates the setting and scrape the colony, the unified extraction of being convenient for, overall structure is more reasonable high-efficient.

In the second embodiment, on the basis of the first embodiment, the closing guard 7 includes: a closing slide column 701 and an electric push rod 702, the closing slide column 701 is slidably mounted on the closing rotary block 202; the closed sliding column 701 is aligned with a slot hole arranged on the closed rotating block 202; the electric push rod 702 is fixedly arranged on the closed sliding column 701; the output shaft of the electric push rod 702 is welded inside the closed rotating block 202; the closing guard 7 further comprises: a seal mounting cover 703 and a seal magnet 704, wherein the seal mounting cover 703 is slidably inserted on the seal sliding column 701; a closing magnet 704 is fixedly embedded on the closing installation cover 703; a rubber coating is arranged on the closed mounting cover 703; the closed magnet 704 is annular magnet, through the closed protection piece 7 that adopts the setting, can realize assisting to seal the protection, can effectually prevent to take and keep apart behind the installation shell 501 and keep apart filter paper 502 by the pollution, can effectually guarantee that the probiotic draws the quality, and this structure adopts electronic propulsion structure simultaneously, and is more convenient, can utilize magnetism to inhale the structure and seal the protection fast, convenient to detach and reuse, closed magnet 704 magnetism inhale and keep apart installation shell 501 and can seal the protection work fast.

A feed probiotic cultivation method comprises the following steps: firstly, dock oxygen bottle etc. through the mounting tube 104 of admitting air, utilize the even air guide of auxiliary hole 205 of breathing, when need take culture dish 401, it rotates to take auxiliary tube 102 to drive the culture dish 401 of taking of sealed rotor 202 through rotatory driving motor 201, extract slip shutoff piece 301, can be through electro-magnet 302 electric magnetism suction protective cover 402, extract the bacterial colony, the use mode is simple convenient, can disinfect before cultivating through sterilamp 204, it can to heat through the electric heating plate 203 circular telegram constant temperature, when carrying and drawing protective cover 402, isolation mounting shell 501 moves up, culture dish 401 position is unchangeable, can carry out the filtering work through isolation filter paper 502 at this moment, after the filtering work is accomplished, can rotatory dismantlement isolation mounting shell 501, can drive rotatory scraper 603 through rotation installation axle 602 that sets up and scrape the bacterial colony, be convenient for unify draw, isolation mounting shell 501 is promoted and is moved up and is carried and is filtered the filtering work time, at this moment, the electric putter 702 promotes the sealed slip post and moves, be equipped with annular magnet through sealed magnet magnetism suction isolation mounting shell 501 bottom, can paste the isolation mounting shell 703 in isolation filter window 502, can observe the inside of the observation of the isolation filter paper 502.

Claims (10)

1. The feed probiotic cultivation device comprises a heat preservation installation part (1), wherein a closed rotation switching device (2) is installed on the heat preservation installation part (1); the method is characterized in that: the heat preservation installation part (1) is provided with a taking auxiliary piece (3) in a sliding manner; a cultivation bearing piece (4) is connected to the closed rotation switching device (2) in a sliding manner; the cultivation bearing piece (4) is connected with an isolation auxiliary device (5) in a threaded manner; a collecting auxiliary piece (6) is fixedly arranged in the isolation auxiliary device (5); a circle of sealing protection piece (7) is arranged on the sealing rotation switching device (2) in a sliding way; -said closing guard (7) being aligned with the isolation assistance device (5); the picking auxiliary piece (3) is used for electromagnetic absorption of the cultivation bearing piece (4); the heat-insulating mounting part (1) comprises: the device comprises a rotary mounting shell (101), a taking auxiliary pipe (102), a supporting mounting ring (103), an air inlet mounting pipe (104) and a rotary mounting ring (105), wherein the rotary mounting shell (101) and the taking auxiliary pipe (102) are of a double-layer heat insulation structure; a support mounting ring (103) is fixedly arranged at the bottom of the rotary mounting shell (101), and a circle of through holes are formed in the support mounting ring (103); the air inlet installation pipe (104) is fixedly installed on the rotary installation shell (101) through a circle of brackets; the rotary mounting ring (105) is fixedly arranged at the bottom of the air inlet mounting tube (104).

2. A feed probiotic cultivation device as claimed in claim 1, characterised in that said thermo-insulating mounting part (1) further comprises: the observation window (106), observation window (106) are equipped with the round, and round observation window (106) are fixed respectively to inlay and are established at rotation installation shell (101) top.

3. A feed probiotic cultivation device as claimed in claim 1, characterised in that the closed rotation switching device (2) comprises: a rotary driving motor (201), a closed rotating block (202), an electric heating plate (203) and an ultraviolet sterilization lamp (204); the rotary driving motor (201) is fixedly arranged at the bottom of the rotary mounting shell (101); the sealing rotating block (202) is rotationally attached to the inside of the rotating installation shell (101); a circle of slotted holes are formed in the closed rotating block (202); the closed rotating block (202) is fixedly arranged on an output shaft of the rotary driving motor (201); the electric heating plate (203) is fixedly embedded in the closed rotating block (202); the electric heating plate (203) is externally connected with a power supply; the ultraviolet sterilization lamp (204) is provided with a circle, and the circle of ultraviolet sterilization lamp (204) is fixedly arranged in the closed rotating block (202) respectively; the sealing rotating block (202) is rotatably connected with a rotating mounting ring (105).

4. A feed probiotic cultivation device as claimed in claim 3, characterised in that said closed rotation switching device (2) further comprises: the ventilation auxiliary holes (205) are formed in a circle, and the circle of ventilation auxiliary holes (205) are aligned with the circle of slotted holes formed in the closed rotating block (202) respectively; a circle of ventilation auxiliary holes (205) are respectively communicated with the air inlet mounting tube (104).

5. A feed probiotic cultivation device as claimed in claim 3, characterised in that said pick-up aid (3) comprises: a sliding closure (301), an electromagnet (302) and a hand-held lever (303), the sliding closure (301) being slidably mounted on the access aid tube (102); an electromagnet (302) is fixedly arranged at the bottom of the sliding closure plug (301), and the electromagnet (302) is externally connected with a control power supply; the hand-held lever (303) is fixedly mounted on the sliding closure (301).

6. A feed probiotic cultivation device as claimed in claim 5, characterised in that the cultivation carrier (4) comprises: the culture dish (401), the protective cover (402) and the connecting magnet (403), wherein the culture dish (401) is in sliding connection with a slotted hole arranged on the closed rotating block (202); a protective cover (402) is arranged on the culture dish (401) in a sliding cover manner; a connecting magnet (403) is fixedly embedded on the protective cover (402); the connecting magnet (403) is aligned with the electromagnet (302).

7. A feed probiotic cultivation device as claimed in claim 6, characterised in that the isolation auxiliary device (5) comprises: an isolation mounting shell (501) and isolation filter paper (502), wherein threads are arranged on the isolation mounting shell (501); the isolation mounting shell (501) is connected to the protective cover (402) in a threaded manner; the isolation filter paper (502) is fixedly arranged at the bottom of the isolation installation shell (501); the bottom of the isolation mounting shell (501) is of a conical structure; the bottom of the isolation installation shell (501) is provided with a ring magnet.

8. A feed probiotic cultivation device as claimed in claim 7, characterised in that said pooling aid (6) comprises: the device comprises a collecting auxiliary mounting frame (601), a rotating mounting shaft (602) and a rotating scraper (603), wherein the collecting auxiliary mounting frame (601) is fixedly welded inside an isolation mounting shell (501); a rotary mounting shaft (602) is rotatably mounted on the collection auxiliary mounting frame (601); a hand wheel is arranged at the top of the rotary mounting shaft (602); the rotary scraping plate (603) is fixedly arranged at the bottom of the rotary installation shaft (602); the rotary scraping plate (603) is attached to the isolation filter paper (502) and the isolation mounting shell (501).

9. A feed probiotic cultivation device as claimed in claim 3, characterised in that the closing guard (7) comprises: a closed sliding column (701) and an electric push rod (702), wherein the closed sliding column (701) is slidably arranged on the closed rotating block (202); the closed sliding column (701) is aligned with a slotted hole arranged on the closed rotating block (202); the electric push rod (702) is fixedly arranged on the closed sliding column (701); and an output shaft of the electric push rod (702) is welded inside the closed rotating block (202).

10. A feed probiotic cultivation device as claimed in claim 9, characterised in that the closing guard (7) further comprises: a sealing installation cover (703) and a sealing magnet (704), wherein the sealing installation cover (703) is in sliding connection with the sealing sliding column (701); a sealing magnet (704) is fixedly embedded on the sealing installation cover (703); a rubber coating is arranged on the closed mounting cover (703); the enclosed magnet (704) is a ring magnet.