CN210528931U - Laboratory is with living fungus growth culture dish of benefit - Google Patents

Abstract

The utility model provides a laboratory is with living fungus growth culture dish of benefit belongs to culture dish technical field, including a glass section of thick bamboo, sealing top cap, a culture section of thick bamboo, solid fixed ring, divider ring, baffle, play tuber pipe, air-supply line, sealed left side lid, an air-supply line, sealed right side lid, micro motor and flabellum, the seamless sealing top cap that has cup jointed in top of a glass section of thick bamboo, the inner wall of a glass section of thick bamboo bonds through branch has a culture section of thick bamboo, the nested bonding of inner wall of a glass section of thick bamboo has solid fixed ring, gu the nested bonding of fixed ring bonds in the centre of divider ring, the inner wall. The utility model provides a micro motor can drive the flabellum and rotate and form the air current and blow in glass section of thick bamboo, can be fine for providing sufficient oxygen in the glass section of thick bamboo, possess good ventilation capacity, three sealed lid can be fine simultaneously with glass section of thick bamboo, play tuber pipe and air-supply line are airtight, have good seal ability, can build the cultivation environment of various living fungus, the very convenient cultivation that is applicable to various living fungus.

Description

Laboratory is with living fungus growth culture dish of benefit

Technical Field

The utility model relates to a culture dish technical field, it is specific, relate to a laboratory is with living fungus growth culture dish of benefit.

Background

The culture dish is a laboratory vessel for culturing microorganisms or cells, consists of a plane disc-shaped bottom and a cover, is generally made of glass or plastics, and can also be used for culturing various probiotics in a laboratory, wherein the probiotics are bacteria or fungi beneficial to human bodies and animals, and mainly comprise clostridium butyricum, lactic acid bacteria, bifidobacterium, lactobacillus acidophilus, actinomycetes, saccharomycetes and the like. Some probiotics are anaerobic bacteria and grow well under anaerobic conditions, while the probiotics do not grow well under aerobic conditions, and some probiotics are aerobic bacteria and can grow well only under the condition of sufficient oxygen. However, the culture dish in the prior art cannot have good ventilation capability if having good sealing performance, cannot be applied to the culture environment of various probiotics, and has the problems of inconvenient use and the like. Therefore, further research needs to be carried out on the basis of culture dishes to provide a probiotic growth culture dish for laboratories.

SUMMERY OF THE UTILITY MODEL

This kind of laboratory is with cultivation that various probiotics can't be applicable to that probiotic growth culture dish provided solves the aforesaid, awkward problem, a laboratory is with probiotic growth culture dish is provided, micro motor in this culture dish can drive the flabellum and rotate and form the air current and blow in the glass section of thick bamboo, can be fine provide sufficient oxygen in the glass section of thick bamboo, good ventilation capacity is possessed, three sealed lid can be fine simultaneously with the glass section of thick bamboo, it is airtight to go out tuber pipe and air-supply line, good seal ability has, can build out the cultivation environment of various probiotics, very convenient cultivation that is applicable to various probiotics.

The utility model provides a following technical scheme: the utility model provides a laboratory is with living fungus growth culture dish of benefit, includes glass section of thick bamboo, sealing top cap, culture cylinder, solid fixed ring, divider ring, baffle, play tuber pipe, air-supply line, sealed left side lid, air-supply line, sealed right side lid, micro motor and flabellum, the seamless sealed top cap that has cup jointed in top of glass section of thick bamboo, the inner wall of glass section of thick bamboo bonds through branch has culture cylinder, the nested bonding of inner wall of glass section of thick bamboo has solid fixed ring, gu fixed ring bonds in the centre of divider ring, the inner wall of divider ring bonds has a plurality of baffles, the left side embedding of glass section of thick bamboo bonds has a tuber pipe, the right side embedding of glass section of thick bamboo bonds has the air-supply line, the seamless sealed left side lid that has cup jointed in the left side of air-supply line, the right side embedding of air-supply line bonds in the left side of air-supply line, the, four fan blades are welded on the left side of the micro motor.

Further preferred embodiments: the separating ring is positioned right below the culture cylinder, and the diameter of the outer ring of the separating ring is smaller than that of the outer ring of the culture cylinder.

Further preferred embodiments: the partition plates are arranged in a grid shape, and the thickness of each partition plate is consistent with that of the corresponding separating ring.

Further preferred embodiments: the diameter of the inner ring of the fixing ring is smaller than that of the outer ring of the culture cylinder, and the diameter of the outer ring of the fixing ring is larger than that of the outer ring of the culture cylinder.

Further preferred embodiments: the inner walls of the sealing top cover, the sealing left cover and the sealing right cover are all bonded with rubber rings, and the three rubber rings are tightly attached to the top of the glass cylinder, the left side of the air outlet pipe and the right side of the air inlet cylinder respectively.

Further preferred embodiments: the power output end of the micro motor is welded with the fan blades, and the fan blades are arranged in a cross shape.

Has the advantages that:

1. the micro motor in the utility model can drive the fan blades to rotate to form air flow to blow into the glass cylinder, can provide enough oxygen for the glass cylinder, has good ventilation capability, and simultaneously, the three sealing covers can seal the glass cylinder, the air outlet pipe and the air inlet cylinder well, has good sealing capability, can build the culture environment of various probiotics, and is very convenient for the culture of various probiotics;

2. the utility model provides a separate the ring and can be isolated with the air current, make the air current through the even vertically bottom of blowing of partition of baffle to the culture drum, avoid the air current directly to blow to the culture drum, will cultivate the raw materials of the culture in the drum and blow up, can slow down the velocity of flow of air current greatly to make the culture materials in the slow even contact culture drum of air current, be favorable to cultivateing the cultivation of living fungus in the drum.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic bottom sectional view of the present invention.

In FIGS. 1-2: the device comprises a glass cylinder 1, a sealing top cover 2, a culture cylinder 3, a fixing ring 4, a separating ring 5, a partition plate 6, an air outlet pipe 7, an air inlet pipe 8, a sealing left cover 9, an air inlet cylinder 10, a sealing right cover 11, a micro motor 12 and fan blades 13.

Detailed Description

Referring to fig. 1 to 2, in the embodiment of the present invention, a probiotic growth culture dish for laboratory use comprises a glass cylinder 1, a sealing top cap 2, a culture cylinder 3, a fixing ring 4, a separating ring 5, a partition plate 6, an air outlet pipe 7, an air inlet pipe 8, a sealing left cap 9, an air inlet cylinder 10, a sealing right cap 11, a micro motor 12 and a fan blade 13, wherein the sealing top cap 2 is seamlessly sleeved on the top of the glass cylinder 1, the culture cylinder 3 is bonded on the inner wall of the glass cylinder 1 through a support rod, the fixing ring 4 is bonded on the inner wall of the glass cylinder 1 in a nested manner, the fixing ring 4 is bonded in the middle of the separating ring 5 in a nested manner, a plurality of partition plates 6 are bonded on the inner wall of the separating ring 5, the air outlet pipe 7 is bonded in a left side of the glass cylinder 1 in a nested manner, the air inlet pipe 8 is bonded in a right side of the glass cylinder 1 in a nested manner, the right side of the air inlet cylinder 10 is seamlessly sleeved with a sealed right cover 11, the air inlet cylinder 10 is provided with a micro motor 12 through a support rod in a welding mode, and the left side of the micro motor 12 is provided with four fan blades 13 in a welding mode.

Preferably, the separating ring 5 is positioned right below the culture cylinder 3, the diameter of the outer ring of the separating ring 5 is smaller than that of the outer ring of the culture cylinder 3, the separating ring 5 can isolate the air flow, so that the air flow is uniformly and vertically blown to the bottom of the culture cylinder 3 through the separation of the separating plate 6, the air flow is prevented from being directly blown into the culture cylinder 3, the culture raw material in the culture cylinder 3 is blown up, the flow velocity of the air flow can be greatly reduced, the air flow slowly and uniformly contacts the culture raw material in the culture cylinder 3, the culture of probiotics in the culture cylinder 3 is facilitated, the separating plate 6 is arranged in a grid shape, the thickness of the separating plate 6 is consistent with that of the separating ring 5, the diameter of the inner ring of the fixing ring 4 is smaller than that of the outer ring of the culture cylinder 3, the diameter of the outer ring of the fixing ring 4 is larger than that of the outer ring of the culture cylinder 3, and rubber rings are adhered, and three rubber ring respectively with the top of glass section of thick bamboo 1, the left side of play tuber pipe 7 and the right side of an air inlet section of thick bamboo 10 closely laminate, micro motor 12's power take off end and flabellum 13 welding set up, and flabellum 13 is the cross arrangement, micro motor 12 can drive flabellum 13 and rotate and form the air current and blow in glass section of thick bamboo 1, can be fine for providing sufficient oxygen in the glass section of thick bamboo 1, possess good ventilation capacity, three sealed lid can be fine simultaneously with glass section of thick bamboo 1, play tuber pipe 7 and air inlet section of thick bamboo 11 are airtight, good sealing capacity has, can build the cultivation environment of various probiotics, very convenient the cultivation that is applicable to various probiotics.

The working principle is as follows:

when the utility model is used, the culture cylinder 3 is selected according to the type of the cultured probiotics and needs to be closed or ventilated, when the anaerobic probiotics are cultured, firstly, the sealing top cover 2 is opened in an anaerobic environment, then the cultured raw materials are put into the culture cylinder 3, secondly, the sealing left cover 9 is covered on the left side of the air outlet pipe 7, and secondly, the sealing right cover 11 is covered on the right side of the air inlet cylinder 10, so that the space in the glass cylinder 1 is completely isolated from the outside;

when the probiotics of liking oxygen is cultivateed, take off sealed top cap 2, sealed right lid 11 and sealed left lid 9 respectively from the top of glass section of thick bamboo 1, the right side of an air inlet section of thick bamboo 11 and the left side of tuber pipe 7, secondly place the raw materials of cultivateing in cultivateing section of thick bamboo 3, still can then put through the power of electric wire switch-on micro motor 12, micro motor 12 drives flabellum 13 and rotates and form the air current and insufflate in glass section of thick bamboo 1, provide sufficient oxygen in for glass section of thick bamboo 1.

Claims (6)

1. The utility model provides a laboratory is with probiotic growth culture dish, includes glass section of thick bamboo (1), sealed top cap (2), culture cylinder (3), solid fixed ring (4), divider ring (5), baffle (6), air-out pipe (7), air-supply line (8), sealed left side lid (9), air-supply line (10), sealed right side lid (11), micro motor (12) and flabellum (13), its characterized in that: the top of a glass cylinder (1) is seamlessly sleeved with a sealing top cover (2), the inner wall of the glass cylinder (1) is bonded with a culture cylinder (3) through a support rod, the inner wall of the glass cylinder (1) is nested and bonded with a fixing ring (4), the fixing ring (4) is nested and bonded in the middle of a separating ring (5), the inner wall of the separating ring (5) is bonded with a plurality of partition plates (6), the left side of the glass cylinder (1) is embedded and bonded with an air outlet pipe (7), the right side of the glass cylinder (1) is embedded and bonded with an air inlet pipe (8), the left side of the air outlet pipe (7) is seamlessly sleeved with a sealing left cover (9), the right side of the air inlet pipe (8) is embedded and bonded in the left side of an air inlet cylinder (10), the right side of the air inlet cylinder (10) is seamlessly sleeved with a sealing right cover (11), the air inlet cylinder (10) is, the left side of the micro motor (12) is welded with four fan blades (13).

2. The laboratory probiotic growth dish of claim 1, wherein: the separating ring (5) is positioned right below the culture cylinder (3), and the diameter of the outer ring of the separating ring (5) is smaller than that of the outer ring of the culture cylinder (3).

3. The laboratory probiotic growth dish of claim 1, wherein: the partition plates (6) are arranged in a grid shape, and the thickness of the partition plates (6) is consistent with that of the separating ring (5).

4. The laboratory probiotic growth dish of claim 1, wherein: the diameter of the inner ring of the fixing ring (4) is smaller than that of the outer ring of the culture cylinder (3), and the diameter of the outer ring of the fixing ring (4) is larger than that of the outer ring of the culture cylinder (3).

5. The laboratory probiotic growth dish of claim 1, wherein: the inner walls of the sealing top cover (2), the sealing left cover (9) and the sealing right cover (11) are all bonded with rubber rings, and the three rubber rings are tightly attached to the top of the glass cylinder (1), the left side of the air outlet pipe (7) and the right side of the air inlet cylinder (10) respectively.

6. The laboratory probiotic growth dish of claim 1, wherein: the power output end of the micro motor (12) is welded with the fan blades (13), and the fan blades (13) are arranged in a cross shape.

Images