CN108795739B

CN108795739B - Biochemical incubator

Info

Publication number: CN108795739B
Application number: CN201811042616.XA
Authority: CN
Inventors: 吴敏; 陈炜; 李梅
Original assignee: Anhui Jiayi Environmental Protection Technology Co ltd
Current assignee: Anhui Jiayi Environmental Protection Technology Co ltd
Priority date: 2018-09-07
Filing date: 2018-09-07
Publication date: 2023-08-18
Anticipated expiration: 2038-09-07
Also published as: CN108795739A

Abstract

The invention discloses a biochemical incubator, wherein a top cover, a first partition plate and a bottom plate on a box body are sequentially arranged from top to bottom, the top cover is made of glass, a first annular slide rail and a second annular slide rail are arranged on the top cover, an ultraviolet lamp is slidably arranged on the first annular slide rail, a first driving mechanism is used for driving the ultraviolet lamp to move along the first annular slide rail, a camera is slidably arranged on the second annular slide rail, a second driving mechanism is used for driving the camera to move along the second annular slide rail, the first partition plate is made of ultraviolet high-transmittance optical glass, and a plurality of second partition plates are positioned between the first partition plate and the bottom plate and divide the first partition plate and the bottom plate into a plurality of culture chambers; as the top cover of the box body is made of common glass, and the first partition plate is made of ultraviolet high-transmittance optical glass, the state of the culture in the culture chamber can be observed through the top cover and the first partition plate, and the culture chamber does not need to be opened to observe the state of the culture, so that external harmful substances are prevented from entering the culture chamber.

Description

Biochemical incubator

Technical Field

The invention relates to the technical field of microorganism culture equipment, in particular to a biochemical incubator.

Background

The biochemical incubator is a special thermostatic device for culturing mould and microorganism, a worker needs to constantly observe the culture state of the culture in the culture process, the existing incubator is opaque, the incubator needs to be opened for observing the culture, the incubator is opened for many times in the culture process, the outside microorganism possibly enters the incubator to cause the failure of culturing the microorganism, in addition, in order to facilitate the study of the state change of the culture in the culture process, a monitoring camera is required to be installed to record the state change of the culture in the whole culture process, and the temperature and humidity in the incubator are different from those in the air, so the monitoring camera is not suitable to be installed in the incubator, and the scientific study is not facilitated.

Disclosure of Invention

In order to solve the technical problems in the background technology, the invention provides a biochemical incubator.

The invention provides a biochemical incubator, which comprises a case body, a first annular slide rail, a second annular slide rail, an ultraviolet lamp, a camera, a first driving mechanism, a second driving mechanism and a plurality of second partition boards, wherein the first partition boards are arranged on the first annular slide rail;

the box body comprises a top cover, a first partition plate and a bottom plate, wherein the top cover, the first partition plate and the bottom plate are sequentially arranged from top to bottom, a preset distance is reserved between the top cover and the first partition plate, and a preset distance is reserved between the first partition plate and the bottom plate;

the top cover is made of glass, the first annular slide rail and the second annular slide rail are arranged on one side of the top cover, close to the first partition board, and are concentrically arranged, the ultraviolet lamp is slidably arranged on the first annular slide rail, the first driving mechanism is used for driving the ultraviolet lamp to move along the first annular slide rail, the camera is slidably arranged on the second annular slide rail, and the second driving mechanism is used for driving the camera to move along the second annular slide rail;

the first baffle is made of ultraviolet high-transmittance optical glass;

the second partition boards are positioned between the first partition boards and the bottom board and divide the first partition boards and the bottom board into a plurality of culture chambers, and the culture chambers are distributed circumferentially by taking the center of the first annular guide rail as the center of a circle.

Preferably, a temperature sensor and a heating lamp are arranged in the culture chamber, a display screen is arranged outside the box body, and the temperature sensor is in communication connection with the display screen.

Preferably, the culture room is internally provided with a humidity sensor and an atomization nozzle, a display screen is arranged outside the box body, and the humidity sensor is in communication connection with the display screen.

Preferably, a visible light lamp is installed in the cultivation room.

Preferably, a compressor chamber is arranged in the box body, a refrigeration compressor is arranged in the compressor chamber, and the output end of the refrigeration compressor is respectively communicated with the plurality of culture chambers.

Preferably, the output end of the refrigeration compressor is respectively communicated with a plurality of culture chambers through a plurality of pipelines, and a plurality of pipelines are respectively provided with stop valves.

Preferably, a vacuum pumping chamber is arranged in the box body, and a vacuum pump is arranged in the vacuum pumping chamber and is respectively communicated with the plurality of culture chambers.

Preferably, the vacuum air pump is respectively communicated with the plurality of culture chambers through a plurality of pipelines, and a plurality of stop valves are respectively arranged on the pipelines.

Preferably, the plurality of second separators are made of a heat insulating material.

In the biochemical incubator, the top cover of the incubator body is made of common glass, and the first partition plate is made of ultraviolet high-transmittance optical glass, so that the state of the culture in the incubator can be observed through the top cover and the first partition plate, and the incubator does not need to be opened to observe the state of the culture, thereby avoiding external harmful substances from entering the incubator; in addition, the camera is arranged between the top cover and the first partition board, the first partition board isolates the culture room, and the environment between the top cover and the first partition board is the same as the external environment, so that the camera can work normally, and the camera records the state change in the culture process, thereby being beneficial to scientific research.

Drawings

FIG. 1 is an exploded view of a biochemical incubator according to the present invention;

FIG. 2 is an exploded view of a biochemical incubator according to the present invention;

FIG. 3 is a cross-sectional view of a biochemical incubator according to the present invention.

Detailed Description

Fig. 1-3 show an exploded view of a biochemical incubator according to the present invention, fig. 2 shows an exploded view of a biochemical incubator according to the present invention, and fig. 3 shows a cross-sectional view of a biochemical incubator according to the present invention.

Referring to fig. 1-2, the biochemical incubator provided by the invention comprises a case body, a first annular slide rail 21, a second annular slide rail 22, an ultraviolet lamp 31, a camera 32, a first driving mechanism, a second driving mechanism and four second partition boards 4;

the box body is of a cylindrical structure and comprises a top cover 11, a first partition plate 12 and a bottom plate 13, wherein the top cover 11, the first partition plate 12 and the bottom plate 13 are sequentially arranged from top to bottom, a preset distance is reserved between the top cover 11 and the first partition plate 12, and a preset distance is reserved between the first partition plate 12 and the bottom plate 13, so that the first partition plate 12 forms an upper layer structure and a lower layer structure inside the box body, and the upper layer structure and the lower layer structure are not communicated;

the top cover 11 is made of common transparent glass, the first annular slide rail 21 and the second annular slide rail 22 are arranged on one side of the top cover 11 close to the first partition plate 12, the first annular slide rail 21 and the second annular slide rail 22 are concentrically arranged, and in the embodiment, the first annular slide rail 21 is positioned on the inner side of the second annular slide rail 22;

the ultraviolet lamp 31 is slidably mounted on the first annular slide rail 21, and the first driving mechanism is used for driving the ultraviolet lamp 31 to move along the first annular slide rail 21, in this embodiment, the first driving mechanism is a motor, the motor is mounted on the ultraviolet lamp 31, an output rotating shaft of the motor abuts against the top cover 11, and when the output rotating shaft of the motor rotates, the ultraviolet lamp 31 moves under the action of friction force between the output rotating shaft of the motor and the top cover 11;

the camera 32 is slidably mounted on the second annular slide rail 22, and the second driving mechanism is used for driving the camera 32 to move along the second annular slide rail 22, in this embodiment, the second driving mechanism is a motor, the motor is mounted on the camera 32, an output rotating shaft of the motor abuts against the top cover 11, and when the output rotating shaft of the motor rotates, the camera 32 moves under the action of friction force between the output rotating shaft of the motor and the top cover 11;

the first partition plate 12 is made of ultraviolet high-transmittance optical glass, and the ultraviolet high-transmittance optical glass has higher ultraviolet transmittance, so that ultraviolet rays emitted by the ultraviolet lamp 31 can enter between the first partition plate 12 and the bottom plate 13 through the high-transmittance optical glass, and the ultraviolet lamp 31 is used for sterilization;

referring to fig. 3, four second partition plates 4 are positioned between the first partition plates 12 and the bottom plate 13 and divide the first partition plates 12 and the bottom plate 13 into four culture chambers, the four culture chambers are circumferentially distributed by taking the center of the first annular guide rail as the center of a circle, the four culture chambers are fan-shaped, a culture is placed in the culture chambers for culture, and a sealing door is arranged on one side of each culture chamber of the box body.

In the biochemical incubator, the top cover 11 is made of common glass, and the first partition plate 12 is made of ultraviolet high-transmittance optical glass, so that a worker can observe the state of a culture in the incubator through the top cover 11 and the first partition plate 12 without opening the incubator for observation; in addition, the ultraviolet lamp 31 is used for sterilizing the culture room, when ultraviolet sterilization is needed in one of the culture rooms, the first driving mechanism is started, so that the ultraviolet lamp 31 moves to the upper part of the culture room, the ultraviolet lamp 31 is turned on, ultraviolet rays emitted by the ultraviolet lamp 31 enter the culture room through the first partition plate 12 to sterilize, and as the top cover 11 is made of common glass, the ultraviolet ray transmittance of the common glass is very low, and therefore the ultraviolet rays emitted by the ultraviolet lamp 31 basically do not penetrate out of the box body, and basically do not harm staff.

In the cultivation process, the second driving mechanism is started, the camera 32 continuously and circularly moves along the second annular slide rail 22, so that four cultivation chambers can be monitored simultaneously by the camera 32, the environment where the camera 32 is located is separated from the cultivation chambers by the first partition 12, the temperature and humidity environment where the camera 32 is located is the same as the external environment, and the camera 32 can work normally.

In this embodiment, a temperature sensor 51 and a heating lamp 52 are disposed in the cultivating chamber, a display screen is mounted outside the casing, the display screen is not shown, the temperature sensor 51 is in communication connection with the display screen, the temperature sensor 51 transmits the collected temperature value to the display screen, and the heating lamp 52 is controlled to be turned on/off according to the requirement of the cultivating environment, so that the temperature in the cultivating chamber reaches a proper value.

In this embodiment, a humidity sensor 61 and an atomizer 62 are disposed in the culture chamber, the humidity sensor 61 is in communication connection with the display screen, the humidity sensor 61 transmits the collected humidity value to the display screen, and the atomizer 62 is controlled to be turned on/off according to the requirement of the culture environment, so that the humidity in the culture chamber reaches a proper value.

In this embodiment, the visible light lamp 7 is installed in the cultivation room, and the visible light lamp 7 can be controlled to be turned on/off according to cultivation requirements.

The culture temperature of some cultures is lower, so be equipped with the compressor room in the box, be equipped with the refrigeration compressor 81 in the compressor room, the output of refrigeration compressor 81 communicates with four culture rooms respectively, when the temperature of needs reduction culture room, can open the refrigeration compressor 81.

Further, the output end of the refrigeration compressor 81 is respectively communicated with four culture chambers through four pipelines, the four pipelines are respectively provided with a stop valve, when the temperature of one culture chamber needs to be reduced, the corresponding stop valve can be opened, other stop valves are kept closed, the temperature of the culture chamber is reduced after a period of time, and the temperature of the other culture chambers is kept unchanged, so that different culture chambers have different culture environments, different cultures can be cultivated, and different cultures can be cultivated in the box body at the same time.

Anaerobic environment is needed in the culture process of some microorganisms, so that a vacuumizing chamber is arranged in the box body, a vacuum air pump 82 is arranged in the vacuumizing chamber, the vacuum air pump 82 is respectively communicated with the four culture chambers, and when the air content of the culture chambers needs to be reduced, the vacuum air pump 82 can be started.

Further, the vacuum pump 82 is respectively communicated with the four culture chambers through four pipelines, a plurality of stop valves are respectively arranged on the four pipelines, when the air content of a certain culture chamber needs to be reduced, the corresponding stop valve can be opened, other stop valves are kept closed, the air content of the culture chamber is reduced after a period of time, the air content of other culture chambers is kept unchanged, so that different culture chambers have different culture environments, different cultures can be cultivated, and different cultures can be cultivated in the box body at the same time.

Referring to fig. 3, the compressor chamber and the evacuation chamber in this embodiment are the same chamber and are located at the middle position of the four culture chambers.

The four second partition boards 4 are made of heat insulation materials, so that heat conduction between adjacent culture chambers is avoided, and the culture effects of different cultures are influenced.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The biochemical incubator is characterized by comprising a case body, a first annular slide rail (21), a second annular slide rail (22), an ultraviolet lamp (31), a camera (32), a first driving mechanism, a second driving mechanism and a plurality of second partition boards (4);

the box body comprises a top cover (11), a first partition plate (12) and a bottom plate (13), wherein the top cover (11), the first partition plate (12) and the bottom plate (13) are sequentially arranged from top to bottom, a preset distance is reserved between the top cover (11) and the first partition plate (12), and a preset distance is reserved between the first partition plate (12) and the bottom plate (13);

the top cover (11) is made of glass, a first annular sliding rail (21) and a second annular sliding rail (22) are arranged on one side, close to the first partition plate (12), of the top cover (11), the first annular sliding rail (21) and the second annular sliding rail (22) are concentrically arranged, an ultraviolet lamp (31) is slidably arranged on the first annular sliding rail (21), a first driving mechanism is used for driving the ultraviolet lamp (31) to move along the first annular sliding rail (21), a camera (32) is slidably arranged on the second annular sliding rail (22), and a second driving mechanism is used for driving the camera (32) to move along the second annular sliding rail (22);

the first clapboard (12) is made of ultraviolet high-transmittance optical glass;

the plurality of second partition boards (4) are positioned between the first partition boards (12) and the bottom board (13), the plurality of second partition boards (4) divide the first partition boards (12) and the bottom board (13) to form a plurality of culture chambers, and the plurality of culture chambers are circumferentially distributed by taking the center of the first annular guide rail as the center of a circle;

a temperature sensor (51) and a heating lamp (52) are arranged in the culture chamber, a display screen is arranged outside the box body, and the temperature sensor (51) is in communication connection with the display screen;

a humidity sensor (61) and an atomizing nozzle (62) are arranged in the culture chamber, a display screen is arranged outside the box body, and the humidity sensor (61) is in communication connection with the display screen.

2. The biochemical incubator according to claim 1, characterized in that a visible light lamp (7) is installed in the incubator.

3. The biochemical incubator according to claim 1, wherein a compressor chamber is provided in the incubator, a refrigeration compressor (81) is provided in the compressor chamber, and output ends of the refrigeration compressor (81) are respectively communicated with the plurality of incubation chambers.

4. A biochemical incubator according to claim 3, wherein the output end of the refrigeration compressor (81) is respectively communicated with the plurality of culture chambers through a plurality of pipelines, and a plurality of the pipelines are respectively provided with stop valves.

5. The biochemical incubator according to claim 1, wherein a vacuum chamber is provided in the incubator, a vacuum pump (82) is provided in the vacuum chamber, and the vacuum pump (82) is respectively communicated with the plurality of incubation chambers.

6. The biochemical incubator according to claim 5, wherein the vacuum pump (82) is respectively communicated with the plurality of culture chambers through a plurality of pipes, and a plurality of stop valves are respectively arranged on the plurality of pipes.

7. A biochemical incubator according to claim 1, characterized in that the plurality of second partitions (4) are made of a heat insulating material.