CN211713099U - Novel biological fermentation culture device - Google Patents

Abstract

A novel biological fermentation culture device comprises a vessel, an electric culture frame, a placing bin and a microcontroller; the vessel is of a hollow structure, the top of the vessel is provided with a gas transmission pipeline, and the side end of the vessel is provided with an opening; the electric culture shelf is arranged in the vessel and comprises a support rod and a support plate for placing a culture; the supporting rod is of a cylindrical structure, a vertical sliding groove and an annular sliding groove are formed in the side face of the supporting rod, and the annular sliding groove is communicated with the vertical sliding groove; the supporting plate is arranged on the supporting rod and connected with the annular sliding groove; the placing bin is of a hollow structure, one side end of the placing bin is provided with an automatic door, the other side end of the placing bin is provided with a sliding door connected through a rotating shaft, the top of the placing bin is provided with a control console, and an exhaust fan is arranged inside the placing bin; the micro controller is arranged in the console. The utility model discloses the culture utilizes and places the inside air exhauster in storehouse and takes out from the air through placing the storehouse transfer, makes outside air not exchange with household utensils, in sending to household utensils through conveyer belt and bracing piece, accomplishes becoming of culture and arranges, the management of being convenient for.

Description

Novel biological fermentation culture device

Technical Field

The utility model relates to a novel biological fermentation culture device.

Background

The conventional liquid culture apparatus for microorganisms mainly has a closed vessel or a bioreactor for culturing microorganisms or cells. Can be used for research, analysis or production. The microbial fermentation engineering requires not only sanitary conditions but also moisture preservation, heat preservation and temperature control for fermentation. Particular attention is paid to providing oxygen to the microorganisms in the fermentor to maintain proper propagation of the microorganisms. When the culture needs to be taken out, the closed container needs to be opened, so that the closed container is exchanged with the outside air to destroy the culture environment, and therefore, how to take out the biological fermentation culture and ensure the culture environment is extremely important.

SUMMERY OF THE UTILITY MODEL

To the above, the utility model aims at providing a novel biological fermentation culture apparatus to solve current fermentation culture apparatus and lead to the unbalanced problem of environment with the outside air exchange.

The technical proposal adopted for realizing the purpose of the utility model is that the novel biological fermentation culture device comprises a vessel, an electric culture frame, a placing bin and a microcontroller; the vessel is of a hollow structure, the top of the vessel is provided with a gas transmission pipeline, and the side end of the vessel is provided with an opening communicated with the placing bin; the electric culture shelf is arranged in the vessel and comprises a support rod and a support plate for placing a culture; the supporting rod is of a cylindrical structure, a vertical sliding groove and a plurality of annular sliding grooves are formed in the side face of the supporting rod, and the annular sliding grooves are communicated with the vertical sliding grooves; the supporting plates are arranged on the supporting rods and connected with the annular sliding grooves, and a plurality of supporting plates are arranged; the placing bin is of a hollow structure, one side end of the placing bin is provided with an automatic door communicated with the opening of the utensil, the automatic door is connected with the output end of the microcontroller, the other side end of the placing bin is provided with a sliding door connected with a rotating shaft, the top of the placing bin is provided with a console electrically connected with the input end of the microcontroller, and the inside of the placing bin is provided with an exhaust fan electrically connected with the output end of the microcontroller; the micro controller is arranged in the console.

Further, the backup pad includes fixed plate, sliding plate and the impeller that promotes the culture, and fixed plate, sliding plate and impeller all with microcontroller output electric connection, fixed plate and annular spout are connected, and the sliding plate bottom surface all is equipped with the spout with the top surface, and the sliding plate passes through the bottom surface spout to be connected with the fixed plate, and the impeller is established on sliding plate top surface spout.

Furthermore, all be equipped with micro motor on fixed plate, sliding plate and the impeller, its micro motor all with microcontroller output electric connection.

Furthermore, racks which are matched with the micro motor of the fixed plate to move are arranged in the annular chute and the vertical chute, racks which are matched with the micro motor of the sliding plate to move are arranged on the fixed plate, and racks which are matched with the pusher to move are arranged on the sliding plate.

Further, place the inside conveyer belt that still establishes with microcontroller output electric connection of storehouse, conveyer belt one end and backup pad butt joint, the other end is equipped with the infrared inductor with microcontroller input electric connection.

Further, the microcontroller is an 8051 microcontroller or other microcontrollers.

Further, the infrared sensor is an RTD711 infrared sensor or other infrared sensors.

The utility model has the advantages that: the culture is through placing the storehouse transfer, utilizes to place the inside air exhauster of storehouse and take out from the air, makes outside air not exchange with the household utensils, in sending the household utensils through conveyer belt and bracing piece, accomplishes the one-tenth of culture and is listed as, the management of being convenient for.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

In the figure, 1-vessel, 2-support rod, 3-placing bin, 4-microcontroller, 101-gas transmission pipeline, 201-vertical chute, 202-annular chute, 203-fixed plate, 204-sliding plate, 205-pusher, 301-automatic door, 302-sliding door, 303-console, 304-exhaust fan, 305-conveyor belt, 306-infrared sensor, 4-microcontroller and 5-culture.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

In fig. 1, a novel biological fermentation culture device comprises a vessel 1, an electric culture rack, a placing bin 3 and a microcontroller 4; the vessel 1 is of a hollow structure, the vessel is made of transparent materials convenient for culture and observation, the top of the vessel 1 is provided with a gas transmission pipeline 101, and the side end of the vessel 1 is provided with an opening communicated with the placing bin 3; the electric culture shelf is arranged in the vessel and comprises a support rod 2 and a support plate for placing a culture; the supporting rod 2 is of a cylindrical structure, a vertical sliding groove 201 and a plurality of annular sliding grooves 202 are formed in the side face of the supporting rod 2, and the annular sliding grooves 202 are communicated with the vertical sliding groove 201; the supporting plates are arranged on the supporting rods and connected with the annular sliding grooves 202, and a plurality of supporting plates are arranged; the placing bin 3 is of a hollow structure, one side end of the placing bin 3 is provided with an automatic door 301 communicated with an opening of the vessel 1, the automatic door 301 is provided with a micro driving motor, the micro driving motor is connected with the output end of the microcontroller 4, the other side end of the placing bin is provided with a sliding door 302 connected with a rotating shaft, the top of the placing bin is provided with a console 303 electrically connected with the input end of the microcontroller 4, and the inside of the placing bin is provided with an exhaust fan 304 electrically connected with the output end of the microcontroller 4; the microcontroller 4 is provided inside the console 303.

In this embodiment, the supporting plate includes a fixing plate 203, a sliding plate 204 and a pusher 205 for pushing the culture, the fixing plate 203, the sliding plate 204 and the pusher 205 are all provided with micro motors, the micro motors are all electrically connected with the output end of the micro controller 4, the fixing plate 203 is connected with the annular chute 202, the bottom surface and the top surface of the sliding plate 204 are all provided with chutes, the sliding plate 204 is connected with the fixing plate 203 through the chute on the bottom surface, and the pusher 205 is arranged on the chute on the top surface of the sliding plate 204.

In this embodiment, racks that are matched with the micro motor of the fixed plate 203 to move are disposed in the annular chute and the vertical chute, a rack that is matched with the micro motor of the sliding plate 204 to move is disposed on the fixed plate 203, a rack that is matched with the pusher 205 to move is disposed on the sliding plate 204, and the motor drives the rack to move is the prior art.

In this embodiment, the inside conveyer belt 305 electrically connected with the output of the microcontroller 4 that still establishes of the placing bin 3, conveyer belt 305 one end and backup pad butt joint, the other end is equipped with the infrared inductor 306 with microcontroller 4 input electric connection.

In this embodiment, the edges of the automatic door 301 and the sliding door 302 are provided with rubber sealing strips, so as to prevent the vessel 1 from exchanging with the outside air and damaging the culture environment inside the vessel 1.

In this embodiment, the microcontroller 4 is an 8051 microcontroller or other microcontrollers.

In this embodiment, the infrared sensor 306 is an RTD711 infrared sensor or other infrared sensors.

In this embodiment, air suitable for biological fermentation culture is conveyed through the 101 air conveying pipeline 101 to provide a suitable environment for the culture, and the console 303 numbers the support plates through programs to facilitate the putting in and taking out of the culture.

In this embodiment, micro motor is small-size loop wheel machine motor, selects suitable motor according to the size of production.

When in use, when the culture on the supporting plate needs to be taken out, the control console 303 outputs a signal to the micro-controller 4 to enable the micro-motor of the fixing plate 203 corresponding to the number of the supporting plate to work and drive the supporting plate to reach the bottom of the supporting rod 2 through the annular sliding groove 202 and the vertical sliding groove 201, and the micro-driving motor opens the automatic door 301, the sliding plate 204 is butted with the conveyor belt 305 of the placing bin 3 under the driving of the micro-motor, the pusher 205 is pushed to the limit position of the sliding plate 204 under the driving of the micro-motor, the culture is pushed to the conveyor belt 305, the conveyor belt 305 drives the culture to run towards the infrared sensor 306, when the infrared sensor 306 senses that the culture reaches the middle part of the conveyor belt 305, a signal is output to the micro-controller 4, the conveyor belt 305 stops running, and the micro motor drives the support plate to return to the original position, the automatic door 301 is closed, and the sliding door 302 can be opened at the moment to take out the culture.

When in use, when the culture needs to be put in, the sliding door 302 is closed when the culture is put in the placing bin, the exhaust fan 304 is controlled by the console 303 to exhaust air outside the placing bin 3, the culture environment is prevented from being damaged by exchanging air with the air inside the vessel 1, after the air is exhausted, a signal is output to the microcontroller 4 through the console 303, the micro motor of the fixed plate 203 corresponding to the number of the support plate is enabled to work, the support plate is driven to reach the bottom of the support rod 2 through the annular chute 202 and the vertical chute 201, the micro driving motor opens the automatic door 301, the sliding plate 204 is enabled to be butted with the conveyor belt 305 of the placing bin 3 under the driving of the micro motor, the conveyor belt 305 drives the culture to run towards the sliding plate 204, the culture is sent to the sliding plate 204, when the infrared sensor 306 senses that the culture leaves the conveyor belt 305, a signal is output to the microcontroller 4, the conveyor belt 305 is, the supporting plate supports the culture on the supporting rod 2, so that the culture observation and management are convenient.

It is worth mentioning that: in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise. In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; may be a mechanical connection; the circuits described in the present invention are all commonly used circuits in the field, and other related components are all commonly used components, and for those skilled in the art, the specific meanings of the above terms in the present invention can be understood according to specific situations.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (5)

1. A novel biological fermentation culture device comprises a vessel, an electric culture frame, a placing bin and a microcontroller; the method is characterized in that: the vessel is of a hollow structure, the top of the vessel is provided with a gas transmission pipeline, and the side end of the vessel is provided with an opening communicated with the placing bin; the electric culture shelf is arranged in the vessel and comprises a support rod and a support plate for placing a culture; the supporting rod is of a cylindrical structure, a vertical sliding groove and a plurality of annular sliding grooves are formed in the side face of the supporting rod, and the annular sliding grooves are communicated with the vertical sliding grooves; the supporting plates are arranged on the supporting rods and connected with the annular sliding grooves, and a plurality of supporting plates are arranged; the placing bin is of a hollow structure, one side end of the placing bin is provided with an automatic door communicated with the opening of the utensil, the automatic door is connected with the output end of the microcontroller, the other side end of the placing bin is provided with a sliding door connected with a rotating shaft, the top of the placing bin is provided with a console electrically connected with the input end of the microcontroller, and the inside of the placing bin is provided with an exhaust fan electrically connected with the output end of the microcontroller; the micro controller is arranged in the console.

2. The novel biological fermentation culture device according to claim 1, characterized in that: the backup pad includes fixed plate, sliding plate and the impeller that promotes the culture, and fixed plate, sliding plate and impeller all with microcontroller output electric connection, and the fixed plate is connected with annular spout, and the sliding plate bottom surface all is equipped with the spout with the top surface, and the sliding plate passes through the bottom surface spout to be connected with the fixed plate, and the impeller is established on sliding plate top surface spout.

3. The novel biological fermentation culture device according to claim 2, characterized in that: the fixed plate, the sliding plate and the pusher are all provided with micro motors which are all electrically connected with the output end of the micro controller.

4. The novel biological fermentation culture device according to claim 3, wherein: the annular chute and the vertical chute are internally provided with racks which are matched with the micro motor of the fixed plate to move, the fixed plate is provided with racks which are matched with the micro motor of the sliding plate to move, and the sliding plate is provided with racks which are matched with the pusher to move.

5. The novel biological fermentation culture device according to claim 1, characterized in that: the inside conveyer belt that still establishes and microcontroller output electric connection of placing the storehouse, conveyer belt one end and backup pad butt joint, the other end is equipped with the infrared inductor with microcontroller input electric connection.

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