CN211620518U

CN211620518U - Microorganism experiment articles for use case

Info

Publication number: CN211620518U
Application number: CN201922331296.6U
Authority: CN
Inventors: 吴丽华; 李海燕; 景秀清; 陈燕飞; 赵文婧
Original assignee: Taiyuan Normal University
Current assignee: Taiyuan Normal University
Priority date: 2019-12-23
Filing date: 2019-12-23
Publication date: 2020-10-02
Anticipated expiration: 2029-12-23

Abstract

The utility model relates to a microorganism experiment article box, belonging to the technical field of microorganism article boxes; the device comprises a device body, a base, a first alloy door, a control box, a biological bin, a storage bin and an ultraviolet germicidal lamp; the bottom of the device body is provided with a base, and the left side of the device body is provided with a control box; a first alloy door is movably arranged on the right side of the front part of the device body through a hinge; the interior of the right side of the device body is divided into an upper part and a lower part by a partition plate, the upper part is a biological bin, and the lower part is a storage bin; the left side wall and the right side wall of the inner side of the device body are provided with ultraviolet germicidal lamps which are positioned at the front side of the storage bin; can deposit the microorganism of adorning with culture dish and test tube simultaneously to detect the condition of microorganism, can disinfect to the inside of device, prevent that the bacterium from producing the influence to the microorganism.

Description

Microorganism experiment articles for use case

Technical Field

The utility model relates to a microorganism articles for use case technical field, concretely relates to microorganism experiment articles for use case.

Background

The microorganisms include: bacteria, viruses, fungi, and some small protists, microscopic algae, etc., which are small and closely related to humans. The food can be widely applied to various fields such as food, medicine, industry and agriculture, environmental protection and the like. When carrying out the microorganism experiment, need use various experimental articles for use, like test tube, culture dish etc. and the function singleness of current experimental articles for use case, the inside bacterium that produces easily of long-time storage box to influence the result of the experiment of microorganism.

Disclosure of Invention

The invention aims to provide a microorganism experimental article box with a reasonable design, which can simultaneously store microorganisms contained in a culture dish and a test tube, detect the condition of the microorganisms, sterilize the inside of the device and prevent bacteria from influencing the microorganisms.

In order to achieve the above purpose, the utility model adopts the following technical proposal: the device comprises a device body, a base, a first alloy door, a control box, a biological bin, a storage bin and an ultraviolet germicidal lamp; the bottom of the device body is provided with a base, and the left side of the device body is provided with a control box; a first alloy door is movably arranged on the right side of the front part of the device body through a hinge; the interior of the right side of the device body is divided into an upper part and a lower part by a partition plate, the upper part is a biological bin, and the lower part is a storage bin; the left side wall and the right side wall of the inner side of the device body are both provided with ultraviolet germicidal lamps, and the ultraviolet germicidal lamps are positioned on the front side of the storage bin;

a second alloy door is arranged on the outer side of the biological bin through a hinge; a culture dish tray and a test tube tray are movably arranged in the biological bin from top to bottom in sequence; the lower end of the heater is arranged on the inner side wall of the lower end of the biological bin, and the upper surface of the heater is positioned below the test tube tray; a plurality of placing grooves are formed in the upper end of the culture dish tray at equal intervals, and sponge pads are arranged in the placing grooves; a temperature sensor and a humidity sensor are sequentially arranged above the culture dish tray from left to right; the temperature sensor and the humidity sensor are both fixed on the inner side wall at the upper end of the biological bin;

the test tube tray comprises clamping plates and a bracket, the left side surface and the right side surface between the two clamping plates which are symmetrically arranged up and down are fixed through the bracket, a plurality of through holes are formed in the upper clamping plate in a matrix manner, notches corresponding to the through holes are formed in the upper surface of the lower clamping plate, and the notches are of semicircular structures;

the storage bin is internally divided into a plurality of storage lattices by cross-shaped partition plates, and the plurality of storage lattices are distributed in a matrix form; an ultraviolet disinfection lamp is arranged above each storage lattice; the ultraviolet disinfection lamp is fixed on the cross-shaped partition plate and the side wall of the partition plate; a storage box is movably arranged in each storage lattice, and the side wall of the storage box is arranged below the ultraviolet disinfection lamp;

the front end of the control box is provided with a display screen and a controller; the controller is arranged below the display screen; the controller consists of a temperature control knob and an ultraviolet lamp switch, the ultraviolet lamp switch is connected with the ultraviolet germicidal lamp and the ultraviolet disinfection lamp, and the temperature control knob is connected with the heater; the display screen is in signal connection with the temperature sensor and the humidity sensor; the display screen, the temperature control knob, the ultraviolet lamp switch, the ultraviolet disinfection lamp, the ultraviolet germicidal lamp, the temperature sensor, the humidity sensor and the heater are all connected with an external power supply.

Furthermore, the middle of the spongy cushion is of a groove-shaped structure, and a plurality of notches are distributed around the groove-shaped structure in a shaft core type through mode.

Further, the inner side of the through hole and the inner side of the notch are both provided with protective cotton.

Furthermore, transparent glass is embedded in the middle of the second alloy door.

Further, the back of the device body is provided with a storage battery, and the display screen, the temperature control knob, the ultraviolet lamp switch, the ultraviolet disinfection lamp, the ultraviolet germicidal lamp, the temperature sensor, the humidity sensor and the heater are all connected with the storage battery.

After the structure is adopted, the beneficial effects of the utility model are that: a microorganism experiment articles for use case, can deposit the microorganism of culture dish and test tube dress simultaneously to detect the condition of microorganism, can disinfect to the inside of device, prevent that the bacterium from producing the influence to the microorganism.

Description of the drawings:

fig. 1 is a front view of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the present invention.

Fig. 3 is a schematic structural view of the culture dish tray of the present invention.

Fig. 4 is a schematic structural view of the test tube tray of the present invention.

Description of reference numerals:

the device comprises a device body 1, a partition board 1-1, a base 2, a first alloy door 3, a control box 4, a display screen 4-1, a controller 4-2, a temperature control knob 4-3, an ultraviolet lamp switch 4-4, a biological bin 5, a second alloy door 5-1, a culture dish tray 5-2, a placing groove 5-2-1, a sponge mat 5-2, a test tube tray 5-3, a clamping plate 5-3-1, a support 5-3-2, a through hole 5-3-3, a notch 5-3-4, a storage bin 6, a storage lattice 6-1, a cross partition board 6-2, an ultraviolet disinfection lamp 6-3, a storage box 6-4, an ultraviolet disinfection lamp 7, a temperature sensor 8, a humidity sensor 9, a storage battery 10, protective cotton 11, a protective cotton, A heater 12.

The specific implementation mode is as follows:

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 4, the following technical solutions are adopted in the present embodiment: the device comprises a device body 1, a base 2, a first alloy door 3, a control box 4, a biological bin 5, a storage bin 6 and an ultraviolet germicidal lamp 7; the bottom of the device body 1 is provided with a base 2, and the left side of the device body 1 is welded with a control box 4; a first alloy door 3 is movably arranged on the right side of the front part of the device body 1 through a hinge 3-1; the interior of the right side of the device body 1 is divided into an upper part and a lower part by a clapboard 1-1, the upper part is a biological bin 5, and the lower part is a storage bin 6; the left side wall and the right side wall of the inner side of the device body 1 are both provided with ultraviolet germicidal lamps 7, and the ultraviolet germicidal lamps 7 are positioned on the front side of the storage bin 6; the back of the device body 1 is provided with a storage battery 10, the storage battery 10 is arranged on the lower wall of the device body 1 through bolts, and the display screen 4-1, the temperature control knob 4-3, the ultraviolet lamp switch 4-4, the ultraviolet disinfection lamp 6-3, the ultraviolet sterilization lamp 7, the temperature sensor 8, the humidity sensor 9 and the heater 12 are all connected with the storage battery 10, so that an emergency power supply can be provided, and microorganisms can be prevented from dying due to power failure;

a second alloy door 5-1 is arranged on the outer side of the biological bin 5 through a hinge, and the second alloy door 5-1 and the first alloy door 3 are adsorption type doors; a piece of transparent glass is arranged in the middle of the second alloy door 5-1; the interior of the biological bin 5 is sequentially and movably provided with a culture dish tray 5-2 and a test tube tray 5-3 from top to bottom, the lower end of a heater 12 is arranged on the inner side wall of the lower end of the biological bin 5, and the upper surface of the heater 12 is positioned below the test tube tray 5-3; a plurality of placing grooves 5-2-1 are formed in the upper end of the culture dish tray 5-2 at equal intervals, and sponge pads 5-2-2 are arranged in the placing grooves 5-2-1; the middle of the spongy cushion 5-2-2 is of a groove-shaped structure, and a plurality of notches are distributed around the groove-shaped structure in a shaft core type through manner; a temperature sensor 8 and a humidity sensor 9 are sequentially arranged above the culture dish tray 5-2 from left to right; the temperature sensor 8 and the humidity sensor 9 are both fixed on the inner side wall at the upper end of the biological bin 5; the model of the temperature sensor 8 is DS18B20, and the model of the humidity sensor 9 is HC 2-S.

The test tube tray 5-3 is composed of clamping plates 5-3-1 and a support 5-3-2, the left side surface and the right side surface between two clamping plates 5-3-1 which are symmetrically arranged up and down are fixed through the support 5-3-2, a plurality of through holes 5-3-3 are arranged in the clamping plate 5-3-1 above the test tube tray in a matrix form, the upper surface of the clamping plate 5-3-1 below the test tube tray is provided with notches 5-3-4 corresponding to the through holes 5-3-3, and the notches 5-3-4 are of a semicircular structure; the inner sides of the through holes 5-3-3 and the notches 5-3-4 are provided with protective cotton 11;

the interior of the storage bin 6 is divided into a plurality of storage lattices 6-1 by cross partition plates 6-2, and the plurality of storage lattices 6-1 are distributed in a matrix form; an ultraviolet disinfection lamp 6-3 is arranged above each storage lattice 6-1; the ultraviolet disinfection lamp 6-3 is fixed on the side walls of the cross partition plate 6-2 and the partition plate 1-1; a storage box 6-4 is movably arranged in each storage grid 6-1, and the upper side wall of each storage box 6-4 is arranged below the ultraviolet disinfection lamp 6-3; the culture dish tray 5-2, the test tube tray 5-3 and the storage box 6-4 are all of a drawing structure;

the front end of the control box 4 is provided with a display screen 4-1 and a controller 4-2; the controller 4-2 is arranged below the display screen 4-1; the controller 4-2 is composed of a temperature control knob 4-3 and an ultraviolet lamp switch 4-4, the ultraviolet lamp switch 4-4 is connected with an ultraviolet sterilizing lamp 7 and an ultraviolet sterilizing lamp 6-3, and the temperature control knob 4-3 is connected with a heater 12; the display screen 4-1 is in signal connection with a temperature sensor 8 and a humidity sensor 9; the display screen 4-1, the temperature control knob 4-3, the ultraviolet lamp switch 4-4, the ultraviolet disinfection lamp 6-3, the ultraviolet germicidal lamp 7, the temperature sensor 8, the humidity sensor 9 and the heater 12 are all connected with an external power supply.

The working principle of the specific embodiment is as follows: when the biological chamber is used, a power supply is switched on, a culture dish containing microorganisms is placed in the groove of the sponge mat 5-2-2 on the culture dish tray 5-2, the test tube containing the microorganisms is inserted into the through hole 5-3-3 and then placed in the notch 5-3-4, the second alloy door 5-1 is closed, and the temperature sensor 8 and the humidity sensor 9 in the biological chamber 5 can transmit data to the display screen 4-1 and display the data; putting the required experimental appliance into the storage box 6-4, and turning on the ultraviolet disinfection lamp 6-3 through the controller 4-2 to disinfect the experimental appliance; the ultraviolet germicidal lamp 7 is turned on through the controller 4-2, the interior of the device body 1 can be sterilized, bacteria are prevented from invading the biological bin 5, and therefore experimental data are influenced; the heater 12 can be controlled by the temperature knob 4-3, so that the temperature in the biological bin is suitable for the survival of microorganisms, and the survival rate of the microorganisms is increased; the battery 10 can supply power to the device to prevent the death of microorganisms during a power outage.

After adopting above-mentioned structure, this embodiment's beneficial effect is as follows:

1. the device is internally provided with a culture dish tray 5-2 and a test tube tray 5-3, and can store various microorganisms at the same time;

2. the culture dish tray 5-2 is internally provided with a spongy cushion, the middle of the spongy cushion is of a groove-shaped structure, a plurality of notches are distributed around the groove in an axial core manner, and the notches are communicated with the groove, so that the culture dish tray is convenient to take while the culture dish is protected;

3. a piece of transparent glass is arranged in the middle of the second alloy door 5-1, so that an experimenter can conveniently observe the conditions in the biological bin.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. A microbiological experiment article box comprises a device body (1), a base (2), a first alloy door (3), a control box (4), a biological bin (5), a storage bin (6) and an ultraviolet germicidal lamp (7); the method is characterized in that: a base (2) is arranged at the bottom of the device body (1), and a control box (4) is arranged on the left side of the device body (1); a first alloy door (3) is movably arranged on the right side of the front part of the device body (1) through a hinge (3-1); the interior on the right side of the device body (1) is divided into an upper part and a lower part by a partition plate (1-1), the upper part is a biological bin (5), and the lower part is a storage bin (6); the left side wall and the right side wall of the inner side of the device body (1) are provided with ultraviolet germicidal lamps (7), and the ultraviolet germicidal lamps (7) are positioned on the front side of the storage bin (6);

a second alloy door (5-1) is arranged on the outer side of the biological bin (5) through a hinge; a culture dish tray (5-2) and a test tube tray (5-3) are movably arranged in the biological bin (5) from top to bottom in sequence; the lower end of the heater (12) is arranged on the inner side wall of the lower end of the biological bin (5), and the upper surface of the heater (12) is positioned below the test tube tray (5-3); a plurality of placing grooves (5-2-1) are formed in the upper end of the culture dish tray (5-2) at equal intervals, and sponge pads (5-2-2) are arranged in the placing grooves (5-2-1); a temperature sensor (8) and a humidity sensor (9) are sequentially arranged above the culture dish tray (5-2) from left to right; the temperature sensor (8) and the humidity sensor (9) are both fixed on the inner side wall at the upper end of the biological bin (5);

the test tube tray (5-3) is composed of clamping plates (5-3-1) and a support (5-3-2), the left side surface and the right side surface between two clamping plates (5-3-1) which are symmetrically arranged up and down are fixed through the support (5-3-2), a plurality of through holes (5-3-3) are formed in the clamping plate (5-3-1) above the test tube tray in a matrix manner, notches (5-3-4) corresponding to the through holes (5-3-3) are formed in the upper surface of the clamping plate (5-3-1) below the test tube tray, and the notches (5-3-4) are of semicircular structures;

the storage bin (6) is internally divided into a plurality of storage lattices (6-1) by cross partition plates (6-2), and the plurality of storage lattices (6-1) are distributed in a matrix form; an ultraviolet disinfection lamp (6-3) is arranged above each storage lattice (6-1); the ultraviolet disinfection lamp (6-3) is fixed on the side walls of the cross partition plate (6-2) and the partition plate (1-1); a storage box (6-4) is movably arranged in each storage lattice (6-1), and the upper side wall of each storage box (6-4) is arranged below the ultraviolet disinfection lamp (6-3);

the front end of the control box (4) is provided with a display screen (4-1) and a controller (4-2); the controller (4-2) is arranged below the display screen (4-1); the controller (4-2) is composed of a temperature control knob (4-3) and an ultraviolet lamp switch (4-4), the ultraviolet lamp switch (4-4) is connected with an ultraviolet sterilizing lamp (7) and an ultraviolet sterilizing lamp (6-3), and the temperature control knob (4-3) is connected with a heater (12); the display screen (4-1) is in signal connection with a temperature sensor (8) and a humidity sensor (9); the display screen (4-1), the temperature control knob (4-3), the ultraviolet lamp switch (4-4), the ultraviolet disinfection lamp (6-3), the ultraviolet germicidal lamp (7), the temperature sensor (8), the humidity sensor (9) and the heater (12) are all connected with an external power supply.

2. The microbiological experimental kit according to claim 1, wherein: the middle of the spongy cushion (5-2-2) is of a groove-shaped structure, and a plurality of notches are distributed around the groove-shaped structure in a shaft core type through manner.

3. The microbiological experimental kit according to claim 1, wherein: and protective cotton (11) is arranged on the inner side of the through hole (5-3-3) and the inner side of the notch (5-3-4).

4. The microbiological experimental kit according to claim 1, wherein: transparent glass is embedded in the middle of the second alloy door (5-1).

5. The microbiological experimental kit according to claim 1, wherein: the device is characterized in that a storage battery (10) is arranged on the back of the device body (1), and the display screen (4-1), the temperature control knob (4-3), the ultraviolet lamp switch (4-4), the ultraviolet disinfection lamp (6-3), the ultraviolet sterilization lamp (7), the temperature sensor (8), the humidity sensor (9) and the heater (12) are all connected with the storage battery (10).