CN213506876U

CN213506876U - A environmental simulation culture apparatus for microorganism

Info

Publication number: CN213506876U
Application number: CN202022277517.9U
Authority: CN
Inventors: 钟伟美; 李颖
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-14
Filing date: 2020-10-14
Publication date: 2021-06-22
Anticipated expiration: 2030-10-14

Abstract

The utility model belongs to the technical field of the simulation of microorganism is cultivateed, especially, an environmental simulation culture apparatus for microorganism, the problem of the required nutrient substance of microorganism growth adding untimely has been directed against, the following scheme is put forward at present, it includes the box and with box articulated case lid, the inner wall of box is fixed with the culture plate, the top inner wall of box has seted up the passageway, the bottom intercommunication of passageway has a plurality of evenly distributed shower nozzles, the both sides lateral wall of box has all seted up the vent, the lateral wall of one of the vent is fixed with the installing frame, the lateral wall of installing frame rotates and is connected with the flabellum, the top of box is fixed with the incubator; the utility model discloses the setting of well reinforced subassembly for the baffle is opened the intercommunication department of incubator and charging box, thereby realizes the automatic interpolation of nutrient solution in the incubator, need not to add its culture solution many times, has realized the automated processing of nutrient solution supply, thereby improves better guarantee to the growth under the microbial simulation environment.

Description

A environmental simulation culture apparatus for microorganism

Technical Field

The utility model relates to a technical field is cultivateed in the simulation of microorganism, especially relates to an environmental simulation culture apparatus for microorganism.

Background

In experiments, when exploring the relationship between the conditions for microbial growth and the products, it is necessary to provide a suitably adjustable environment for the microbes, such as, for example, providing comfortable temperature, proper air flow and time monitoring, etc.

In the prior art, when a dynamic growth environment is simulated for microorganisms, nutrients required for the growth of the microorganisms need to be supplied, and air circulation required for the growth of the microorganisms is ensured.

Therefore, there is a need for an environmental simulation culture apparatus for microorganisms, which solves the problem of untimely addition of nutrients required for the growth of microorganisms.

SUMMERY OF THE UTILITY MODEL

The utility model provides an environmental simulation culture apparatus for microorganism has solved the untimely problem of required nutrient substance interpolation of microorganism growth.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an environment simulation culture device for microorganisms comprises a box body and a box cover hinged with the box body, wherein a culture plate is fixed on the inner wall of the box body, a channel is arranged on the inner wall of the top of the box body, the bottom end of the channel is communicated with a plurality of uniformly distributed spray heads, vent holes are formed in the side walls of the two sides of the box body, an installation frame is fixed on the side wall of one vent hole, fan blades are rotatably connected to the side wall of the installation frame, an incubator is fixed on the top of the box body and communicated with the channel, a partition plate is fixed in the incubator and rotatably connected with the side wall of the incubator, belt wheels are fixed on the stirring rod and one side of each fan blade, belts are sleeved on the surfaces of the two belt wheels, a driving motor is fixed on one side of each belt wheel positioned at the top, and a feeding box is communicated with one side of the incubator far away from the driving motor, a feeding assembly is arranged between the feeding box and the partition plate.

Preferably, reinforced subassembly is including locating the floater between baffle and the incubator, the top of floater is fixed with the first slide bar that slides and run through with the incubator, the top of charging box slides and runs through there is the second slide bar, the charging box with the intercommunication department sliding connection of incubator has the baffle, the baffle with it has the connecting rod to articulate between the second slide bar, the incubator with it is connected with V type pole to rotate between the charging box, the both ends of V type pole are articulated with first slide bar and second slide bar respectively.

Preferably, the floating ball is positioned at one side of a communication position of the feeding box and the incubator, and two vertical tangent planes of the floating ball coincide with the side surface of the partition plate and the inner side surface of the incubator respectively.

Preferably, a guide plate is fixed at the bottom end of the feeding box, the upper surface of the guide plate and the side wall of the feeding box are distributed in an inclined mode, and the bottom end of the guide plate is close to the baffle.

Preferably, the size of baffle with the intercommunication department size looks adaptation of charging box and incubator, the chamfer has been seted up to the intercommunication department of charging box and incubator.

Preferably, the interior of the culture plate is in a sieve mesh shape, and the box body is positioned below the incubator and is connected with the collection box in a sliding mode.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in through driving motor's drive, guarantee the homogeneity of the nutrient solution in the entering passageway, carry out the nutrient solution to the microorganism on the culture plate through the shower nozzle and provide, simultaneously, drive the flabellum on the installing frame and rotate to guarantee the circulation of air of microorganism growth in the box, be used for simulating the application environment of microorganism in-box growth, thereby guarantee its better growth; the setting of reinforced subassembly, when the liquid level in the incubator descends, the floater is through its self gravity for the baffle is opened the intercommunication department of incubator and feeder box, thereby realizes the automatic interpolation to nutrient solution in the incubator, need not to add its culture solution many times, has realized the automated processing of nutrient solution supply, thereby improves better guarantee to the growth under the little biological simulation environment.

2. The utility model discloses when the intercommunication department of well guide plate, assurance baffle to incubator and charging box was opened, mix in the better entering incubator of the inside culture solution of charging box to the microorganism carries out the provision of nutrient solution on the culture plate.

Drawings

FIG. 1 is a schematic view of a main sectional structure of an environmental simulation cultivation apparatus for microorganisms according to the present invention;

FIG. 2 is an enlarged view of area A of FIG. 1;

FIG. 3 is a schematic structural view of the environment simulation cultivation apparatus for microorganisms according to the present invention.

In the figure: 1. a box body; 2. a box cover; 3. culturing the plate; 4. a channel; 5. a spray head; 6. a vent; 7. installing a frame; 8. a fan blade; 9. an incubator; 10. a partition plate; 11. a stirring rod; 12. a pulley; 13. a belt; 14. a drive motor; 15. a feed box; 16. a feeding assembly; 161. a floating ball; 162. a first slide bar; 163. a second slide bar; 164. a baffle plate; 165. a connecting rod; 166. a V-shaped rod; 17. a baffle; 18. and a collection box.

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.

Referring to fig. 1-3, an environment simulation cultivation device for microorganisms comprises a box body 1 and a box cover 2 hinged with the box body 1, wherein a cultivation plate 3 is fixed on the inner wall of the box body 1, a channel 4 is arranged on the inner wall of the top of the box body 1, the bottom end of the channel 4 is communicated with a plurality of uniformly distributed spray heads 5, vent holes 6 are respectively arranged on the side walls of two sides of the box body 1, a mounting frame 7 is fixed on the side wall of one vent hole 6, fan blades 8 are rotatably connected with the side wall of the mounting frame 7, a cultivation box 9 is fixed on the top of the box body 1, the cultivation box 9 is communicated with the channel 4, a partition plate 10 is fixed inside the cultivation box 9, a stirring rod 11 is rotatably connected between the partition plate 10 and the side wall of the cultivation box 9, belt wheels 12 are respectively fixed on one side of the stirring rod 11 and one side of the fan blades 8, belts 13 are sleeved, one side of the incubator 9, which is far away from the driving motor 14, is communicated with a feeding box 15, a feeding assembly 16 is arranged between the feeding box 15 and the partition plate 10, specifically, the box cover 2 is used for opening and closing the box body 1 to realize the relative closed treatment of the box body 1, microbes are cultured on the culture plate 3 in the box body 1, the air circulation in the box body 1 is accelerated through the rotation of fan blades 8 on the ventilation openings 6, the culture solution in the incubator 9 reaches the spray head 5 through the channel 4, the supply of nutrient solution to the microbes on the culture plate 3 by the spray head 5 is realized, the growth environment of the microbes is simulated, the driving of the driving motor 14 can drive the stirring rod 11 in the incubator 9 to rotate and stir, thereby ensuring the culture solution to be more uniform, so that the microbes on the culture plate 3 can grow better, and can pass through the belt wheel 12 and the belt 13, the fan blades 8 on the mounting frame 7 are driven to rotate, so that the ventilation of the microorganism growth in the box body 1 is ensured; the charging box 15 is used for adding the culture solution in the incubator 9, realizes automatic addition in the incubator 9 through the effect of the charging component 16, and realizes the even concentration of the culture solution in the rotation through the stirring rod 11.

The feeding assembly 16 comprises a floating ball 161 arranged between the partition plate 10 and the incubator 9, a first sliding rod 162 which is slidably penetrated through the incubator 9 is fixed at the top of the floating ball 161, a second sliding rod 163 is slidably penetrated through the top of the feeding box 15, a baffle 164 is slidably connected at the communication position of the feeding box 15 and the incubator 9, a connecting rod 165 is hinged between the baffle 164 and the second sliding rod 163, a V-shaped rod 166 is rotatably connected between the incubator 9 and the feeding box 15, two ends of the V-shaped rod 166 are respectively hinged with the first sliding rod 162 and the second sliding rod 163, specifically, the partition plate 10 is arranged for ensuring the stability of the floating ball 161 in the incubator 9, and the baffle 164 is opened and closed at the communication position of the incubator 9 and the feeding box 15 through the buoyancy of the floating ball 161 to realize the automatic feeding of the culture solution in the incubator 9; when the liquid level in the incubator 9 descends, the floating ball 161 drives the first sliding rod 162 to slide downwards in the incubator 9 through the gravity of the floating ball 161, and the V-shaped rod 166 is driven to rotate, so that the second sliding rod 163 is driven to slide upwards in the feed box 15, and the baffle 164 is opened at the communication position between the incubator 9 and the feed box 15 through the action of the connecting rod 165, so that the nutrient solution in the incubator 9 can be automatically added.

The floating ball 161 is located at one side of a communication position between the feed box 15 and the incubator 9, specifically, the floating ball 161 can block the communication position between the incubator 9 and the feed box 15 to a certain degree, and the sealing performance of the communication position between the incubator 9 and the feed box 15 is further improved under the action of the baffle 164; two vertical tangent planes of floater 161 coincide with the side of baffle 10 and the medial surface of incubator 9 respectively mutually, and is specific, guarantee that floater 161 moves more stably in incubator 9, prevent to make floater 161 amplitude of rocking too big because of the rotation of puddler 11.

The bottom mounting of charging box 15 has guide plate 17, guide plate 17's upper surface and charging box 15's lateral wall are the slope and distribute, guide plate 17's bottom is close to baffle 164, and is concrete, guide plate 17's setting, when guaranteeing that baffle 164 opens incubator 9 and charging box 15's intercommunication department, mix in the better entering incubator 9 of the inside culture solution of charging box 15 to microorganism carries out the providing of nutrient solution on 3 to the culture plate.

Baffle 164's size and feeder box 15 and incubator 9's intercommunication department size looks adaptation, and the chamfer has been seted up in feeder box 15 and incubator 9's intercommunication department, and is concrete, guarantees under initial condition, the relative leakproofness of feeder box 15, and the setting of chamfer, when being convenient for incubator 9 and feeder box 15's intercommunication department is opened, in the better entering incubator 9 of nutrient solution in the feeder box 15.

The inside of cultivate board 3 is the sieve mesh form, and the below sliding connection that box 1 is located incubator 9 has collecting box 18, and is specific, the setting of sieve mesh form for carry out centralized processing in getting into collecting box 18 to the impurity on the cultivate board 3, guarantee the better that the microorganism grows under simulated environment.

The working principle is as follows: in an initial state, a certain amount of nutrient solution is stored in the feeding box 15 and the incubator 9, the stirring rod 11 is driven to rotate in the incubator 9 by the driving of the driving motor 14, the culture solution in the feeding box is mixed and stirred, the uniformity of the nutrient solution entering the channel 4 is ensured, the nutrient solution is provided for the microorganism on the culture plate 3 by the spray head 5, and meanwhile, the fan blades 8 on the mounting frame 7 are driven to rotate by the action of the belt wheel 12 and the belt 13, so that the ventilation of the microorganism growth in the box body 1 is ensured, the application environment for simulating the growth of the microorganism in the box body 1 is used, and the better growth of the microorganism is ensured; when the liquid level in incubator 9 descends, floater 161 is through its self gravity, drive first slide bar 162 and slide downwards in incubator 9, it takes place to rotate to drive V type pole 166, thereby it upwards slides in addition tank 15 to drive second slide bar 163, effect through connecting rod 165, make baffle 164 open incubator 9 and addition tank 15's intercommunication department, thereby realize the automatic interpolation to nutrient solution in incubator 9, need not to add its nutrient solution many times, the automated processing of nutrient solution supply has been realized, thereby growth under the microbial simulation environment improves better guarantee.

The driving motor 14 is commercially available, and the driving motor 14 is provided with a power supply, which belongs to the mature technology in the field and is fully disclosed, so that the detailed description is not repeated in the specification.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The environment simulation culture device for the microorganisms comprises a box body (1) and a box cover (2) hinged with the box body (1), and is characterized in that a culture plate (3) is fixed on the inner wall of the box body (1), a channel (4) is formed in the inner wall of the top of the box body (1), a plurality of uniformly distributed spray heads (5) are communicated with the bottom end of the channel (4), vent holes (6) are formed in the side walls of the two sides of the box body (1), a mounting frame (7) is fixed on the side wall of one of the vent holes (6), fan blades (8) are rotatably connected to the side wall of the mounting frame (7), a culture box (9) is fixed on the top of the box body (1), the culture box (9) is communicated with the channel (4), a partition plate (10) is fixed inside the culture box (9), and a stirring rod (11) is rotatably connected between the partition plate (10) and the side wall of the culture box (9), puddler (11) with one side of flabellum (8) all is fixed with band pulley (12), two belt (13) have been cup jointed on the surface of band pulley (12), are located the top one side of band pulley (12) is fixed with driving motor (14), one side intercommunication that driving motor (14) were kept away from in incubator (9) has feed box (15), feed box (15) with be provided with reinforced subassembly (16) between baffle (10).

2. The environment simulation cultivation device for microorganisms according to claim 1, wherein the feeding assembly (16) comprises a floating ball (161) disposed between the partition plate (10) and the cultivation box (9), a first sliding rod (162) slidably penetrating the cultivation box (9) is fixed on the top of the floating ball (161), a second sliding rod (163) slidably penetrates the top of the feeding box (15), a baffle (164) is slidably connected to a communication position of the feeding box (15) and the cultivation box (9), a connecting rod (165) is hinged between the baffle (164) and the second sliding rod (163), a V-shaped rod (166) is rotatably connected between the cultivation box (9) and the feeding box (15), and two ends of the V-shaped rod (166) are respectively hinged to the first sliding rod (162) and the second sliding rod (163).

3. The environmental simulation culture apparatus for microorganisms according to claim 2, wherein the floating ball (161) is located at one side of the communication between the feeding box (15) and the culture box (9), and two vertical sections of the floating ball (161) coincide with the side of the partition plate (10) and the inner side of the culture box (9), respectively.

4. The environmental simulation culture apparatus for microorganisms according to claim 2, wherein a baffle (17) is fixed at the bottom end of the feeding box (15), the upper surface of the baffle (17) is obliquely distributed with the side wall of the feeding box (15), and the bottom end of the baffle (17) is close to the baffle (164).

5. The environmental simulation culture device for microorganisms according to claim 4, wherein the size of the baffle (164) is matched with the size of the communication between the feeding box (15) and the culture box (9), and the communication between the feeding box (15) and the culture box (9) is chamfered.

6. An environment simulated culture device for microorganisms according to claim 1, characterized in that the inside of said culture plate (3) is in the shape of a sieve, and a collection box (18) is slidably connected to said box (1) below said incubator (9).