CN114715555A

CN114715555A - Probiotic preservation equipment

Info

Publication number: CN114715555A
Application number: CN202210405270.5A
Authority: CN
Inventors: 李国良; 陈霞; 刘帅
Original assignee: Anhui Shanhe Biotechnology Co ltd
Current assignee: Shanenkang Biotechnology Suzhou Co ltd
Priority date: 2022-04-18
Filing date: 2022-04-18
Publication date: 2022-07-08
Anticipated expiration: 2042-04-18
Also published as: CN114715555B

Abstract

The invention discloses probiotic storage equipment, which belongs to the technical field of probiotic production equipment and comprises a first storage tank and a second storage tank, wherein the outer side of the first storage tank is respectively connected with a first air supply pipe, a second air supply pipe and an air return pipe, fan sections are respectively arranged on the first air supply pipe and the second air supply pipe, a hot water coil tower pipe and a cold water coil tower pipe are arranged on the inner side of the air return pipe, a first sealing cover is arranged at the top of the first storage tank, a vacuum pump is arranged at the top of the first sealing cover, and an air inlet pipe is arranged at one side of the vacuum pump. According to the invention, through the arrangement of the first storage tank, helium can be injected into the first storage tank through the air inlet pipe, so that the situation that air directly enters the second storage tank to influence the activity and sealed storage of probiotics when the vacuum in the second storage tank is damaged is avoided, the helium in the first storage tank is circulated through the arrangement of the first air supply pipe, the air return pipe and the second air supply pipe, and the helium is cooled through the hot water tray tower pipe and the hot water outlet pipe to keep constant temperature.

Description

Probiotic preservation equipment

Technical Field

The invention relates to storage equipment, in particular to probiotic preservation equipment, and belongs to the technical field of probiotic production equipment.

Background

Probiotics are active microorganisms which are beneficial to human bodies and can be colonized in human bodies and change the composition of flora at a certain part of the hosts, the mucosal and systemic immunity of the hosts can be adjusted or the intestinal health is adjusted, so that the intestinal health is promoted, bacteria or fungi which are beneficial to the human bodies or animal bodies mainly comprise yeasts, probiotic spores, lactic acid bacteria, bifidobacteria, actinomycetes and the like, the probiotics are usually stored at low temperature, and the number of the active probiotics can be kept to the maximum extent because most drinks of the probiotics are not subjected to embedding treatment, so that the probiotics are usually stored by low-temperature refrigeration equipment.

The existing probiotic preservation equipment has the following defects: (1) the existing probiotic preservation equipment usually uses a low-temperature vacuum preservation technology, but once air is leaked after the vacuum environment is realized, air cannot be isolated in time, and the activity of the probiotics can be influenced; (2) the rare gas isolating the air can not automatically keep constant temperature and can not deal with the air leakage of the vacuum environment at any time.

To overcome the above shortcomings, how to research a probiotic preservation device capable of timely isolating air and keeping constant temperature for rare gas isolated from air when a vacuum environment is damaged is a problem to be solved urgently at present.

Disclosure of Invention

The main object of the present invention is to provide a probiotic preservation apparatus in order to solve the above-mentioned drawbacks.

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

a probiotic preservation device comprises a first storage tank and a second storage tank positioned on the inner side of the first storage tank, wherein one side of the first storage tank is connected with a first air supply pipe, the other side of the first storage tank is connected with a second air supply pipe, an air return pipe is arranged between the first air supply pipe and the second air supply pipe, one end of the air return pipe is communicated with the first storage tank, the two sides of the other end of the air return pipe are respectively connected with the first air supply pipe and the second air supply pipe, fan sections are arranged on the first air supply pipe and the second air supply pipe, a hot water coil tower pipe is arranged on the inner side of the air return pipe, a cold water coil tower pipe is arranged on one side of the hot water coil tower pipe, which is far away from the first storage tank, a first sealing cover is arranged on the top of the first storage tank, a vacuum pump is arranged on the top of the first storage tank, the air exhaust end of the vacuum pump is communicated with the inside of the first storage tank through an air exhaust pipe, and an air inlet pipe is arranged on one side of the vacuum pump.

Furthermore, the hot water coil tower pipe and the cold water coil tower pipe are both provided with spiral pipes, and the spiral radius of the top end of each spiral pipe is smaller than that of the bottom end of each spiral pipe.

Furthermore, the water inlet ends of the hot water coil tower pipe and the cold water coil tower pipe are respectively connected with a hot water inlet pipe and a cold water inlet pipe, and the water outlet ends of the hot water coil tower pipe and the cold water coil tower pipe are respectively connected with a hot water outlet pipe and a cold water outlet pipe.

Furthermore, a plurality of spoilers which are distributed uniformly are arranged on the outer sides of the hot water coil tower pipe and the cold water coil tower pipe.

Furthermore, a fan is installed on the inner side of the fan section, a plurality of supports are arranged at the bottoms of the first air supply pipe, the air return pipe and the second air supply pipe, and the first air supply pipe, the air return pipe and the second air supply pipe are connected with the supports through a plurality of hoops.

Furthermore, a first air supply outlet and a second air supply outlet are formed in the side wall of the first storage tank, the first air supply outlet is communicated with the first air supply pipe, the second air supply outlet is communicated with the second air supply pipe, an air return opening is formed between the first air supply outlet and the second air supply outlet, the air return opening is communicated with the air return pipe, a handle is arranged on one side of the air exhaust pipe, and a sealing ring is arranged at the bottom of the first sealing cover.

Furthermore, check valves are installed at the ends of the first air supply pipe, the air return pipe, the second air supply pipe and the first storage tank, which are connected with each other.

Further, first motor is installed to the inner wall bottom of first holding vessel, the output of first motor is connected with the carousel, the top of carousel pass through the magnetic chuck with second holding vessel interconnect, the both sides of second holding vessel all are equipped with the second motor, the top of second motor is equipped with the fixed plate, the both ends of fixed plate all through the connecting plate with carousel interconnect, the output of second motor is connected with first lead screw, be equipped with on the first lead screw with second holding vessel interconnect's elevator, the elevator with be equipped with the spacing ring between the second motor.

Furthermore, a third sealing cover is arranged at the top of the second storage tank, a connecting pipe is connected to the top of the third sealing cover, and a fourth sealing cover is installed on the connecting pipe.

Further, the inside of second holding vessel is equipped with the third motor, the output of third motor is connected with the second lead screw, be equipped with a plurality of layering dishes through lifting sleeve interconnect on the second lead screw, a plurality of bleeder vents have been seted up on the layering dish, the both sides of layering dish all are equipped with the slider, seted up on the inner wall of second holding vessel with the spout that the slider was mutually supported.

The invention has the beneficial technical effects that: according to the probiotic storage equipment, through the arrangement of the first storage tank, helium can be injected into the first storage tank through the air inlet pipe, air can be prevented from directly entering the second storage tank when the vacuum in the second storage tank is damaged to influence the activity and sealed storage of probiotics, the helium in the first storage tank can be circulated through the arrangement of the first air supply pipe, the air return pipe and the second air supply pipe, and the helium in the first storage tank can be kept at a constant temperature for refrigeration through the hot water tray tower pipe and the hot water outlet pipe.

Drawings

FIG. 1 is a schematic view of the overall structure according to the present invention;

FIG. 2 is a schematic view of a cold water coil tower tube according to the present invention;

FIG. 3 is a schematic view of a hot water tray tower configuration according to the present invention;

FIG. 4 is a schematic view showing a side structure of a first storage tank according to the present invention;

FIG. 5 is a schematic view of another side of the first storage tank according to the present invention;

FIG. 6 is a schematic view of the internal structure of a first storage tank according to the present invention;

fig. 7 is a schematic view of the internal structure of a second storage tank according to the present invention.

In the figure: 1-bracket, 2-hoop, 3-first blast pipe, 4-return pipe, 5-second blast pipe, 6-hot water inlet pipe, 7-cold water inlet pipe, 8-check valve, 9-first storage tank, 10-sealing ring, 11-first sealing cover, 12-air inlet pipe, 13-second sealing cover, 14-vacuum pump, 15-air exhaust pipe, 16-handle, 17-hot water tray tower pipe, 18-hot water outlet pipe, 19-cold water tray tower pipe, 20-cold water outlet pipe, 21-return port, 22-lifting block, 23-first screw rod, 24-spacing ring, 25-second motor, 26-connecting plate, 27-fixing plate, 28-second blast port, 29-second storage tank, 30-a third sealing cover, 31-a first air supply outlet, 32-a rotating disc, 33-a magnetic chuck, 34-a first motor, 35-a connecting pipe, 36-a fourth sealing cover, 37-a third motor, 38-a layering disc, 39-a lifting sleeve, 40-a sliding groove, 41-a sliding block, 42-an air vent, 43-a spoiler, 44-a second screw rod and 45-a fan section.

Detailed Description

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

As shown in fig. 1-7, the probiotic storage apparatus provided in this embodiment includes a first storage tank 9 and a second storage tank 29 located inside the first storage tank 9, one side of the first storage tank 9 is connected to a first air supply pipe 3, the other side of the first storage tank 9 is connected to a second air supply pipe 5, a return air pipe 4 is disposed between the first air supply pipe 3 and the second air supply pipe 5, one end of the return air pipe 4 is communicated with the first storage tank 9, two sides of the other end of the return air pipe 4 are respectively connected to the first air supply pipe 3 and the second air supply pipe 5, a fan section 45 is disposed on each of the first air supply pipe 3 and the second air supply pipe 5, a hot water tray tower pipe 17 is disposed inside the return air pipe 4, a cold water tray tower pipe 19 is disposed on one side of the hot water tray tower pipe 17 away from the first storage tank 9, a first sealing cover 11 is disposed on the top of the return air pipe 4, a vacuum pump 14 is disposed on the top of the first sealing cover 11, the air exhaust end of the vacuum pump 14 is communicated with the interior of the first storage tank 9 through an air exhaust pipe 15, and one side of the vacuum pump 14 is provided with an air inlet pipe 12. Through the setting of first holding vessel 9, can pour into the helium into to the inside of first holding vessel 9 through intake pipe 12, can avoid directly getting into the activity and the sealed storage of the inside influence probiotic of second holding vessel 29 of air when the inside vacuum of second holding vessel 29 suffers destruction, can circulate the inside helium of first holding vessel 9 through first blast pipe 3, the setting of return air pipe 4 and second blast pipe 5, and keep constant temperature cold-stored to the inside helium of first holding vessel 9 through hot water tray tower pipe 17 and hot water outlet pipe 18.

In the present embodiment, as shown in fig. 2 and 3, the hot water coil pipe 17 and the cold water coil pipe 19 are each provided as a spiral pipe having a spiral radius at the top end that is smaller than that at the bottom end. The water inlet ends of the hot water coil tower pipe 17 and the cold water coil tower pipe 19 are respectively connected with a hot water inlet pipe 6 and a cold water inlet pipe 7, and the water outlet ends of the hot water coil tower pipe 17 and the cold water coil tower pipe 19 are respectively connected with a hot water outlet pipe 18 and a cold water outlet pipe 20. A plurality of spoilers 43 which are distributed uniformly are arranged on the outer sides of the hot water coil tower pipe 17 and the cold water coil tower pipe 19. Set to be less than bottom spiral radius through with hot water

coil tower pipe

17 and 19 top spiral radiuses of cold water coil tower pipe and can make the length of the spiral pipe when cold water or hot water pass through when getting into be less than the length of the spiral pipe when going out, and then can avoid hot water

coil tower pipe

17 and 19 cold water coil tower pipe to intake section and go out the water section and have great temperature difference to cause hot water

coil tower pipe

17 and 19 to cool off and heat inhomogeneously to the helium. The hot water inlet pipe 6 and the cold water inlet pipe 7 are arranged to respectively inject hot water and cold water into the hot water coil tower pipe 17 and the cold water coil tower pipe 19, and the cold water or the hot water after heat exchange can be transmitted out through the arrangement of the hot water outlet pipe 18 and the cold water outlet pipe 20. The disturbance of the air flow passing through the hot water coil tower pipe 17 and the cold water coil tower pipe 19 can be enhanced through the arrangement of the spoiler 43, so that the heat exchange of the hot water coil tower pipe 17 and the cold water coil tower pipe 19 is enhanced, and the heat conduction of the hot water coil tower pipe 17 and the cold water coil tower pipe 19 can also be enhanced.

In the present embodiment, as shown in fig. 1, 4 and 5, a fan is installed inside the fan section 45, a plurality of brackets 1 are respectively disposed at the bottom of each of the first air supply pipe 3, the air return pipe 4 and the second air supply pipe 5, and each of the first air supply pipe 3, the air return pipe 4 and the second air supply pipe 5 is connected with each bracket 1 through a plurality of hoops 2. The side wall of the first storage tank 9 is provided with a first air supply outlet 31 communicated with the first air supply pipe 3 and a second air supply outlet 28 communicated with the second air supply pipe 5, an air return opening 21 communicated with the air return pipe 4 is formed between the first air supply outlet 31 and the second air supply outlet 28, one side of the air exhaust pipe 15 is provided with a handle 16, and the bottom of the first sealing cover 11 is provided with a sealing ring 10. One end of the first air supply pipe 3, the air return pipe 4, one end of the second air supply pipe 5 and one end of the first storage tank 9 are all provided with a check valve 8. The helium circulating power can be provided for the helium circulating in the first air supply pipe 3 and the second air supply pipe 5 by arranging the fan on the inner side of the fan section 45, and the first air supply pipe 3, the air return pipe 4 and the second air supply pipe 5 are fixed and supported conveniently by the support 1 and the hoop 2. Can communicate first blast pipe 3, return air duct 4, second blast pipe 5 and first holding vessel 9 through the setting of first supply-air outlet 31, second supply-air outlet 28 and return air inlet 21 for first blast pipe 3, return air duct 4, the inside space that can circulate the helium that forms of second blast pipe 5 and first holding vessel 9, can conveniently open first sealed lid 11 through the setting of handle 16, can strengthen the leakproofness between first sealed lid 11 and the first holding vessel 9 through the setting of sealing washer 10. The arrangement of the check valve 8 prevents the airflow in the first storage tank 9 from flowing back to the first air supply pipe 3, the air return pipe 4 and the second air supply pipe 5 to cause the mixing of cold and hot airflow, so as to influence the refrigeration effect of probiotics in the second storage tank 29.

In this embodiment, as shown in fig. 6 and 7, a first motor 34 is installed at the bottom of the inner wall of the first storage tank 9, the output end of the first motor 34 is connected with a rotary table 32, the top of the rotary table 32 is connected with the second storage tank 29 through a magnetic chuck 33, the two sides of the second storage tank 29 are both provided with a second motor 25, the top of the second motor 25 is provided with a fixing plate 27, the two ends of the fixing plate 27 are both connected with the rotary table 32 through a connecting plate 26, the output end of the second motor 25 is connected with a first screw rod 23, the first screw rod 23 is provided with a lifting block 22 connected with the second storage tank 29, and a limit ring 24 is arranged between the lifting block 22 and the second motor 25. The top of the second storage tank 29 is provided with a third sealing cover 30, the top of the third sealing cover 30 is connected with a connecting pipe 35, and a fourth sealing cover 36 is installed on the connecting pipe 35. The inside of second holding vessel 29 is equipped with third motor 37, and the output of third motor 37 is connected with second lead screw 44, is equipped with a plurality of layering dishes 38 through lifting sleeve 39 interconnect on the second lead screw 44, has seted up a plurality of bleeder vents 42 on the layering dish 38, and the both sides of layering dish 38 all are equipped with slider 41, offer the spout 40 with slider 41 mutually supporting on the inner wall of second holding vessel 29. The first motor 34 can drive the rotating disc 32 to rotate, so that the second storage tank 29 arranged on the rotating disc 32 rotates in the first storage tank 9, the cold helium airflow blown out from the first air supply outlet 31 and the second air supply outlet 28 can be uniformly spread on the second storage tank 29, thereby having good refrigerating effect on the probiotics in the second storage tank 29, the magnetic attraction disc 33 can be electrified and has magnetism through the arrangement of the magnetic attraction disc 33, the second storage tank 29 is well fixed, the first screw rod 23 can be driven to rotate through the arrangement of the second motor 25, so that the lifting block 22 on the second storage tank 29 can lift on the first screw rod 23 to lift the second storage tank 29, the second storage tank 29 is convenient to lift and lower from the inside of the first storage tank 9, the arrangement of the limit ring 24 can prevent the second motor 25 from being damaged and falling off due to the fact that the lifting height of the lifting block 22 is too high to reach the second motor 25. Can conveniently realize the sealed of second holding vessel 29 through the setting of the sealed lid 30 of third, can be convenient for communicate the inside of second holding vessel 29 and exhaust tube 15 and then carry out the evacuation through the setting of connecting pipe 35 and handle the inside of second holding vessel 29, realize the vacuum preservation of living fungus, can realize the sealed of connecting pipe 35 through the setting of the sealed lid 36 of fourth. The setting through third motor 37 can drive the second lead screw 44 rotatory and then make lifting sleeve 39 go up and down on second lead screw 44, thereby realized the lift of a plurality of layering dish 38, the convenience evenly places the probiotic product on a plurality of layering dish 38, make the cold-stored layering of probiotic, avoid the probiotic to pile up each other the extrusion and cause the uneven problem of inside cooling, the cold-stored effect of probiotic can further be improved in setting through a plurality of bleeder vents 42, setting through slider 41 and spout 40 can make a plurality of layering dishes 38 can not rotate and then influence the lift of layering dish 38 relatively second lead screw 44.

In this embodiment, as shown in fig. 1 to fig. 7, the working process of the probiotic preservation apparatus provided in this embodiment is as follows:

step 1: opening the first sealing cover 11, driving the first screw rod 23 to rotate by using the second motor 25 so as to lift the second storage tank 29, opening the third sealing cover 30, driving the second screw rod 44 to rotate by using the third motor 37 so as to lift the plurality of layered disks 38, dispersedly placing the probiotic bags on the plurality of layered disks 38, driving the second screw rod 44 to reversely rotate by using the third motor 37 so as to make the plurality of layered disks 38 fall into the second storage tank 29, covering the third sealing cover 30, and opening the fourth sealing cover 36;

step 2: the second motor 25 is used for driving the first screw rod 23 to rotate reversely, so that the second storage tank 29 is descended to the inside of the first storage tank 9, the first sealing cover 11 is covered, the vacuum pump 14 on the first sealing cover 11 is mutually attracted with the connecting pipe 35 through the exhaust pipe 15, and the air in the second storage tank 29 is pumped away to form a vacuum environment;

and step 3: opening a second sealing cover 13, injecting helium gas into the first storage tank 9 through an air inlet pipe 12 until the first storage tank 9, the first blast pipe 3, the return air pipe 4 and the second blast pipe 5 are filled with helium gas, and closing the second sealing cover 13;

and 4, step 4: cold water is injected into the cold water coil tower pipe 19 through the cold water inlet pipe 7, the helium is cooled through the hot water coil tower pipe 17, and the turbulence effect of air is improved through the plurality of turbulence plates 43;

and 5: when the temperature of the helium gas in the first storage tank 9 is lower than the temperature range required by refrigeration, hot water is injected into the hot water coil tower pipe 17 through the hot water inlet pipe 6 to adjust the temperature of the helium gas purged in the first storage tank 9;

step 6: when the first air supply pipe 3 and the second air supply pipe 5 uniformly purge the outside of the second storage tank 29, the first motor 34 drives the rotary table 32 to rotate, so that the second storage tank 29 rotates to cool the cooled helium gas purged by the first air supply pipe 3 and the second air supply pipe 5, and the temperature range of the internal refrigeration of the second storage tank 29 is maintained.

In summary, in this embodiment, according to the probiotic storage device of this embodiment, the spiral radius at the top end of the hot water coil tower pipe 17 and the spiral radius at the top end of the cold water coil tower pipe 19 are set to be smaller than the spiral radius at the bottom end, so that the length of the spiral pipe through which cold water or hot water passes when entering is smaller than the length of the spiral pipe when going out, and further, the uneven cooling and heating of helium gas by the hot water coil tower pipe 17 and the cold water coil tower pipe 19 caused by the large temperature difference between the water inlet section and the water outlet section of the hot water coil tower pipe 17 and the cold water coil tower pipe 19 can be avoided. The hot water inlet pipe 6 and the cold water inlet pipe 7 are arranged to respectively inject hot water and cold water into the hot water coil tower pipe 17 and the cold water coil tower pipe 19, and the cold water or the hot water after heat exchange can be transmitted out through the arrangement of the hot water outlet pipe 18 and the cold water outlet pipe 20. The disturbance of the air flow passing through the hot water coil tower pipe 17 and the cold water coil tower pipe 19 can be enhanced through the arrangement of the spoiler 43, so that the heat exchange of the hot water coil tower pipe 17 and the cold water coil tower pipe 19 is enhanced, and the heat conduction of the hot water coil tower pipe 17 and the cold water coil tower pipe 19 can also be enhanced. The helium circulating inside the first air supply pipe 3 and the second air supply pipe 5 can be provided with circulating power by arranging the fan on the inner side of the fan section 45, and the first air supply pipe 3, the air return pipe 4 and the second air supply pipe 5 can be fixed and supported conveniently by arranging the support 1 and the hoop 2. Can communicate first blast pipe 3, return air duct 4, second blast pipe 5 and first holding vessel 9 through the setting of first supply-air outlet 31, second supply-air outlet 28 and return air inlet 21 for first blast pipe 3, return air duct 4, the inside space that can circulate the helium that forms of second blast pipe 5 and first holding vessel 9, can conveniently open first sealed lid 11 through the setting of handle 16, can strengthen the leakproofness between first sealed lid 11 and the first holding vessel 9 through the setting of sealing washer 10. The setting of the check valve 8 prevents the air flow in the first storage tank 9 from flowing back to the inside of the first air supply pipe 3, the air return pipe 4 and the second air supply pipe 5, which causes the mixing of cold and hot air flows and further influences the refrigeration effect of probiotics in the second storage tank 29. The first motor 34 can drive the rotating disc 32 to rotate, so that the second storage tank 29 arranged on the rotating disc 32 rotates in the first storage tank 9, the cold helium airflow blown out from the first air supply outlet 31 and the second air supply outlet 28 can be uniformly spread on the second storage tank 29, thereby having good refrigerating effect on the probiotics in the second storage tank 29, the magnetic attraction disc 33 can be electrified and has magnetism through the arrangement of the magnetic attraction disc 33, the second storage tank 29 is well fixed, the first screw rod 23 can be driven to rotate through the arrangement of the second motor 25, so that the lifting block 22 on the second storage tank 29 can lift on the first screw rod 23 to lift the second storage tank 29, the second storage tank 29 is convenient to lift and lower from the inside of the first storage tank 9, the arrangement of the limit ring 24 can prevent the second motor 25 from being damaged and falling off due to the fact that the lifting height of the lifting block 22 is too high to reach the second motor 25. Can conveniently realize the sealed of second holding vessel 29 through the setting of the sealed lid 30 of third, can be convenient for communicate the inside of second holding vessel 29 and exhaust tube 15 and then carry out the evacuation through the setting of connecting pipe 35 and handle the inside of second holding vessel 29, realize the vacuum preservation of living fungus, can realize the sealed of connecting pipe 35 through the setting of the sealed lid 36 of fourth. The setting through third motor 37 can drive the second lead screw 44 rotatory and then make lifting sleeve 39 go up and down on second lead screw 44, thereby realized the lift of a plurality of layering dish 38, the convenience evenly places the probiotic product on a plurality of layering dish 38, make the cold-stored layering of probiotic, avoid the probiotic to pile up each other the extrusion and cause the uneven problem of inside cooling, the cold-stored effect of probiotic can further be improved in setting through a plurality of bleeder vents 42, setting through slider 41 and spout 40 can make a plurality of layering dishes 38 can not rotate and then influence the lift of layering dish 38 relatively second lead screw 44.

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

Claims

1. The probiotic preservation equipment is characterized by comprising a first storage tank (9) and a second storage tank (29) located on the inner side of the first storage tank (9), wherein one side of the first storage tank (9) is connected with a first air supply pipe (3), the other side of the first storage tank (9) is connected with a second air supply pipe (5), an air return pipe (4) is arranged between the first air supply pipe (3) and the second air supply pipe (5), one end of the air return pipe (4) is communicated with the first storage tank (9), two sides of the other end of the air return pipe (4) are respectively connected with the first air supply pipe (3) and the second air supply pipe (5), fan sections (45) are arranged on the first air supply pipe (3) and the second air supply pipe (5), and a hot water coil tower pipe (17) is arranged on the inner side of the air return pipe (4), keep away from hot water coil tower pipe (17) one side of first holding vessel (9) is equipped with cold water coil tower pipe (19), return air pipe (4) the top of first holding vessel (9) is equipped with first sealed lid (11), the top of first sealed lid (11) is equipped with vacuum pump (14), the end of bleeding of vacuum pump (14) pass through exhaust tube (15) with the inside of first holding vessel (9) communicates each other, one side of vacuum pump (14) is equipped with intake pipe (12).

2. The probiotic preservation apparatus according to claim 1, characterized in that the hot water coil (17) and the cold water coil (19) are both provided as helical tubes with a top helical radius smaller than a bottom helical radius.

3. The probiotic preservation apparatus according to claim 1, characterized in that the water inlet ends of the hot water tray tube (17) and the cold water tray tube (19) are respectively connected with a hot water inlet tube (6) and a cold water inlet tube (7), and the water outlet ends of the hot water tray tube (17) and the cold water tray tube (19) are respectively connected with a hot water outlet tube (18) and a cold water outlet tube (20).

4. The probiotic preservation apparatus according to claim 1, characterized in that the outside of the hot water coil (17) and the cold water coil (19) are provided with a plurality of evenly distributed spoilers (43).

5. The probiotic preservation apparatus according to claim 1, characterized in that a blower is installed inside the blower section (45), a plurality of brackets (1) are provided at the bottom of the first air supply pipe (3), the return air pipe (4) and the second air supply pipe (5), and the first air supply pipe (3), the return air pipe (4) and the second air supply pipe (5) are connected with the brackets (1) through a plurality of hoops (2).

6. The probiotic preservation apparatus according to claim 1, wherein a first air supply opening (31) for communicating with the first air supply pipe (3) and a second air supply opening (28) for communicating with the second air supply pipe (5) are formed in a side wall of the first storage tank (9), an air return opening (21) for communicating with the air return pipe (4) is formed between the first air supply opening (31) and the second air supply opening (28), a handle (16) is arranged on one side of the air suction pipe (15), and a sealing ring (10) is arranged at the bottom of the first sealing cover (11).

7. The probiotic preservation apparatus according to claim 1, characterized in that the ends of the first air supply pipe (3), the return air pipe (4) and the second air supply pipe (5) that are connected to the first storage tank (9) are all equipped with check valves (8).

8. The probiotic preservation apparatus according to claim 1, characterized in that the bottom of the inner wall of the first storage tank (9) is provided with a first motor (34), the output end of the first motor (34) is connected with a rotary disc (32), the top of the rotary disc (32) is connected with the second storage tank (29) through a magnetic suction disc (33), a second motor (25) is arranged on each of two sides of the second storage tank (29), a fixing plate (27) is arranged at the top of the second motor (25), both ends of the fixed plate (27) are mutually connected with the rotary disc (32) through a connecting plate (26), the output end of the second motor (25) is connected with a first screw rod (23), the first screw rod (23) is provided with a lifting block (22) which is mutually connected with the second storage tank (29), a limiting ring (24) is arranged between the lifting block (22) and the second motor (25).

9. The probiotic preservation apparatus according to claim 1, characterized in that a third sealing cover (30) is provided on the top of the second storage tank (29), a connecting pipe (35) is connected to the top of the third sealing cover (30), and a fourth sealing cover (36) is installed on the connecting pipe (35).

10. The probiotic preservation apparatus according to claim 1, wherein a third motor (37) is disposed inside the second storage tank (29), an output end of the third motor (37) is connected with a second lead screw (44), a plurality of layered discs (38) connected with each other through a lifting sleeve (39) are disposed on the second lead screw (44), a plurality of ventilation holes (42) are disposed on the layered discs (38), sliding blocks (41) are disposed on both sides of the layered discs (38), and a sliding groove (40) matched with the sliding blocks (41) is disposed on an inner wall of the second storage tank (29).