CN211079116U - Microorganism preservation device - Google Patents

Abstract

The utility model discloses a microorganism save set belongs to biotechnology field, the device includes the box, and the front side of box is provided with the door that opens and shuts, is provided with display screen and shift knob on the door that opens and shuts, and the inside controller that is provided with of display screen, and the inside bottom of box is provided with keeps platform, temperature control device, humidity control device and oxygen controlling means, and the inside top both sides of box all are provided with ultraviolet ray sterilization lamp and L ED lamp, and the inside top of box still is provided with the microscope camera, is provided with the through-hole on the lateral wall of box, and is connected with the lid that opens and shuts on the through-hole, the utility model discloses in through the display screen that sets up on the door that opens and shuts, can set up the working parameter of the subassembly that the device includes according to the condition that the microorganism was preserved to make the microorganism preserve longer time.

Description

Microorganism preservation device

Technical Field

The utility model relates to the field of biotechnology, in particular to microorganism save set.

Background

Microorganisms (microorganisms) refer to a large group of organisms including bacteria, viruses, fungi, protozoa, etc., which are usually microscopic in size and invisible or unclear to the naked eye and need to be observed with the aid of a microscope. The microorganism is preserved by selecting proper culture medium, culture temperature and age of the microorganism, preserving in low temperature, oxygen-isolated, dry and light-resistant environment, reducing or stopping the metabolic activity of the microorganism as much as possible, slowing or stopping growth and reproduction, not being polluted by other bacteria, and keeping the ability of living for a long time.

During the preservation process of the existing microorganisms, the microorganisms are generally put into a refrigerator for preservation. However, the above preservation method cannot meet the preservation temperature, humidity and oxygen content required for different microorganism samples, and thus may affect the preservation of microorganisms, so that it is required to design a preservation apparatus for microorganisms.

SUMMERY OF THE UTILITY MODEL

For better preservation microorganism, the utility model provides a microorganism preservation device. The technical scheme is as follows:

a microorganism preservation device comprises a box body, wherein an opening and closing door is arranged on the front side of the box body, a display screen and a switch button are arranged on the opening and closing door, a controller is arranged in the display screen, a preservation table, a temperature control device, a humidity control device and an oxygen control device are arranged at the bottom end in the box body, ultraviolet sterilizing lamps and L ED lamps are arranged on two sides of the top end in the box body, a microscope camera is further arranged at the top end in the box body, a through hole is formed in the side wall of the box body, and an opening and closing cover is connected to the through hole;

and the display screen, the switch button, the temperature control device, the humidity control device, the oxygen control device, the ultraviolet sterilizing lamp, the L ED lamp and the microscope camera are all in communication connection with the controller.

Further, a handle is arranged on the opening and closing door.

Furthermore, four corners of the bottom end of the box body are provided with universal wheels.

Further, a handle is arranged at the top end of the box body.

Furthermore, heat preservation interlayers are arranged inside the six walls of the box body.

Furthermore, a storage battery is arranged inside the box body.

Further, the display screen is a touch display screen.

Further, the microscope camera is of a telescopic structure and is movably connected with the top end inside the box body.

The utility model provides a technical scheme's beneficial effect is: the utility model discloses in through the display screen that sets up on the door that opens and shuts, can set up each working parameter of the subassembly that the device includes according to the condition that the microorganism was preserved to carry out real-time supervision to the situation of surviving of microorganism through the microscope camera, thereby can preserve longer time with the microorganism. Additionally, the utility model discloses can directly cultivate earlier the microorganism, then preserve for cultivate and preserve the integration, thereby can practice thrift the cost.

Drawings

FIG. 1 is a schematic structural view of a microorganism preservation apparatus provided by the present invention;

fig. 2 is a schematic structural view of a heat-insulating interlayer provided by the present invention.

The reference numbers of the device comprise 1-box body, 2-opening and closing door, 3-display screen, 4-switch button, 5-controller, 6-storage table, 7-temperature control device, 8-humidity control device, 9-oxygen control device, 10-ultraviolet sterilization lamp, 11-L ED lamp, 12-microscope camera, 13-through hole, 14-opening and closing cover, 15-handle, 16-universal wheel, 17-handle, 18-heat preservation interlayer and 19-storage battery.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The use of the terms "upper", "lower", "left", "right" and the like in the present invention is for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

FIG. 1 is a schematic structural diagram of a microorganism preservation device provided by the present invention, referring to FIG. 1, the microorganism preservation device includes a box 1, an opening/closing door 2 is provided at the front side of the box 1, a display screen 3 and a switch button 4 are provided on the opening/closing door 2, a controller 5 is provided inside the display screen 3, a preservation table 6, a temperature control device 7, a humidity control device 8 and an oxygen control device 9 are provided at the bottom inside the box 1, ultraviolet sterilization lamps 10 and L ED lamps 11 are provided at both sides of the top inside the box 1, a microscope camera 12 is further provided at the top inside the box 1, a through hole 13 is provided on the side wall of the box 1, an opening/closing cover 14 is connected to the through hole 13, and the display screen 3, the switch button 4, the temperature control device 7, the humidity control device 8, the oxygen control device 9, the ultraviolet sterilization lamps 14, L ED lamps 11 and the microscope camera 10 are all in communication connection with the controller 5.

The microorganism storage device comprises a box body 1, an opening and closing door 2 arranged on the front side of the box body 1, a display screen 3 arranged on the opening and closing door 2, a switch button 4 arranged on the opening and closing door 2, a controller 5 arranged inside the display screen 3, a temperature control device 7, a humidity control device 8, an oxygen control device 9, an ultraviolet sterilization lamp 14, an L ED lamp 11 and a microscope camera 10, a storage table 6 arranged at the bottom end inside the box body 1, a temperature control device 7 arranged at the bottom end inside the box body 1, a humidity control device 8 arranged at the bottom end inside the box body 1, a vacuum pump arranged at the top end of the box body 1, a through hole 3513 arranged at the top end of the box body 1, a vacuum pump arranged at the bottom end inside the box body 1, a vacuum pump arranged at the bottom end of the box body 1, and a vacuum pump arranged at the top end of the box body 1, wherein the vacuum pump is used for monitoring the inside of the through hole 13 of the opening and the through hole 13 arranged at the box body 1, and the vacuum pump for monitoring the inside the through hole 13 for the live microorganism storage device connected with the vacuum pump arranged at the inside the box body 1.

It should be noted that, temperature control device 7, humidity control device 8 and the inside temperature-sensing ware that is provided with respectively of oxygen controlling means 9, humidity inductor and oxygen inductor, as long as this microorganism save set is first started, just at once respectively to the inside temperature of this microorganism save set, humidity and oxygen content carry out real-time detection, thereby the living condition of control microorganism that can be more convenient, and temperature control device 7, the inside temperature-sensing ware that sets up respectively of humidity control device 8 and oxygen controlling means 9, humidity inductor and oxygen inductor are in the detection state in the middle of the process of this microorganism save set's work all the time, unless this microorganism save set closes, just can stop detecting.

It should be noted that the microorganism storage apparatus is not only used for storing microorganisms but also for culturing microorganisms. Setting parameters according to the conditions of microorganism propagation, allowing the microorganism to propagate, and setting parameters according to the conditions of microorganism preservation to preserve the microorganism when the quantity required to be preserved is reached.

Further, the opening and closing door 2 is provided with a handle 15, so that the opening and closing door 2 can be opened and closed more conveniently.

Further, the four corners of the bottom end of the box body 1 are provided with universal wheels 16, so that the microorganism storage device can be moved more conveniently.

Further, a handle 17 is arranged at the top end of the box body 1.

The volume of the microorganism storage apparatus according to the present invention is not limited, and a manufacturer can manufacture a microorganism storage apparatus having an appropriate volume according to specific needs in actual work. For example, if remote delivery of microorganisms is desired, the microorganisms can be stored in a small volume of microorganism storage equipment. Therefore, the handle 17 is more convenient to carry when the microorganism preservation device is transported for a long distance.

Further, six inside heat preservation intermediate layers 18 that all are provided with of wall of box 1, so, can keep warm for a long time inside this microorganism save set to need not the frequent heating or the cooling to this microorganism save set, in order to reach the purpose of energy saving.

Further, a storage battery 19 is provided inside the case 1, so that power can be supplied to the microbe-storing device.

Further, the display screen 3 is a touch display screen.

It should be noted that, the setting control of the component that the microorganism storage device includes can be shown on the display screen 3, when the staff needs to set the working parameter of a certain component, the setting control that this component corresponds on the display screen 3 can be clicked, the setting interface that this component corresponds can be shown on the display screen 3 this moment, later the staff can adjust the parameter of this component through the increase or reduction control on the display screen 3. For example, if the user needs to set the temperature inside the microorganism storage device, only the control corresponding to the temperature control device 7 needs to be clicked, an interface for setting the temperature is displayed on the display screen 3, and the user can click the heating or cooling control according to specific needs to set the temperature.

Further, the microscope camera 10 is of a telescopic structure and is movably connected with the top end inside the box body 1.

It should be noted that, when the staff observes the stored microorganisms, if the pictures seen by the staff are unclear, the staff can control the microscope camera 10 to extend downward or contract upward, so that the photographed pictures are clearer. The operator can also control the angle of the microscope camera 10 to observe microorganisms placed at different positions on the storage table 6.

The utility model discloses a complete work flow can be: after the staff pressed shift knob 4, this microorganism save set began to start, at this moment, temperature control device 7, the inside temperature-sensing ware that sets up respectively of humidity control device 8 and oxygen controlling means 9, humidity sensing ware and oxygen sensor begin the temperature to this microorganism save set respectively, humidity and oxygen content detect, detect after well, temperature control device 7, humidity control device 8 and oxygen controlling means 9 can be with the data transmission who detects to controller 5, controller 5 can be with data transmission to display screen 3 after receiving the detection data, display screen 3 can show data on display screen 3 after receiving data.

When conditions required for the propagation and preservation of microorganisms are different from the data displayed on the display screen 3, the worker is required to adjust the respective parameters. For example, if the temperature displayed on the display screen 3 is lower than the temperature required for microbial propagation or preservation, and the operator clicks the control corresponding to the temperature control device 7 on the display screen 3, an interface for setting the temperature is displayed on the display screen 3, and the operator clicks the heating control, at this time, the display screen 3 sends a temperature increase signal to the controller 5, the controller 5 receives the temperature increase signal and then sends a temperature increase instruction to the temperature control device 7, and the temperature control device 7 starts to heat the microbial preservation device after receiving the temperature increase instruction. After the temperature reaches the temperature required by the propagation or preservation of the microorganisms, the staff clicks a heating closing control on the display screen 3, at the moment, the display screen 3 sends a closing temperature increasing signal to the controller 5, the controller 5 receives the closing temperature increasing signal and then sends a temperature stopping instruction to the temperature control device 7, and the temperature control device 7 stops heating after receiving the temperature stopping instruction.

If a worker needs to cultivate a microorganism first, the worker sets various parameters of the microorganism storage device according to the condition that the microorganism needs to be bred, firstly, the worker turns on the ultraviolet sterilizing lamp 10 by clicking an opening control of the ultraviolet sterilizing lamp 10 on the display screen 3 to sterilize the microorganism storage device, after the sterilization is finished, the worker turns off the ultraviolet sterilizing lamp 10 by clicking a closing control of the ultraviolet sterilizing lamp 10 on the display screen 3, if the temperature displayed on the display screen 3 is lower than the temperature needed for breeding the microorganism, the worker turns off the heating control of the temperature control device 7 on the display screen 3 by clicking, if the temperature displayed on the display screen 3 is higher than the temperature needed for breeding the microorganism, the worker reduces the temperature by clicking a cooling control of the temperature control device 7 on the display screen 3, when the temperature reaches the required temperature, the worker turns on a closing heating or cooling control of the temperature control device 7 on the display screen 3 to turn off the heating or cooling control device, if the temperature reaches the temperature required for increasing or reducing the humidity, if the humidity displayed on the humidifying control device 3 reaches the humidity, the humidity control device 3 is connected to the humidity control device, and the humidity reduction control device (when the humidity is higher than the humidity displayed on the humidity control device 3, the humidity control device 3 is clicked, the humidity reduction control device is displayed on the humidity reduction device, the humidity control device 3, the humidity control device is displayed on the humidity control device 3, the humidity control device is clicked, the humidity control device 3, the humidity reduction device is displayed on the humidity reduction device is displayed when the humidity reduction device, the humidity reduction device is displayed on the humidity reduction device, the humidity control device 3, the humidity reduction device is displayed on the humidity reduction device 3, the humidity reduction device is displayed on the oxygen reduction device, the oxygen reduction device is displayed on the oxygen reduction device, the oxygen reduction device 3, the oxygen reduction device is displayed on the moisture reduction device is displayed on the oxygen reduction device 3, the oxygen reduction device is displayed on the oxygen reduction device when the oxygen reduction device is displayed on.

After setting up each parameter that this microorganism breeds needs, the staff opens the door 2 that opens and shuts through handle 15, places this microorganism in keeping platform 6, then closes door 2 that opens and shuts and lets this microorganism breed, and the staff can observe this microorganism through microscope camera 10. The staff opens microscope camera 10 through the control of opening microscope camera 10 on clicking the display screen 3, microscope camera 10 sends the picture to controller 5, controller 5 receives and sends picture to display screen 3 behind the picture, display screen 3 shows the picture received, so that the staff can observe this microorganism through display screen 3, if the staff is when observing the microorganism, because microscope camera 10 is too high and make the picture unclear, then the staff can click the downward extension control of microscope camera 10 on the display screen 3, make microscope camera 10 extend downwards, reach required height after, click the downward extension control that stops of microscope camera 10 on the display screen 3, make microscope camera 10 stop extending downwards. Similarly, the worker may click the angle adjustment control of the microscope camera 10 on the display screen 3 to adjust the angle of the microscope camera 10. After the observation is finished, the worker can close the microscope camera 10 by clicking a control part on the display screen 3 for closing the microscope camera 10. After the microorganisms are well propagated, workers need to store the microorganisms, and the workers set various parameters of the microorganism storage device according to the conditions that the microorganisms need to be stored, and the setting method is the same as the method.

It is worth explaining, the utility model discloses in through the display screen that sets up on the door that opens and shuts, can set up each working parameter of the subassembly that the device includes according to the condition that the microorganism was preserved to live the situation of surviving of microorganism through the microscope camera and carry out real-time supervision, thereby can preserve longer time with the microorganism. Additionally, the utility model discloses can directly cultivate earlier the microorganism, then preserve for cultivate and preserve the integration, thereby can practice thrift the cost.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (8)

1. A microorganism preservation device is characterized by comprising a box body (1), wherein an opening and closing door (2) is arranged on the front side of the box body (1), a display screen (3) and a switch button (4) are arranged on the opening and closing door (2), a controller (5) is arranged inside the display screen (3), a preservation table (6), a temperature control device (7), a humidity control device (8) and an oxygen control device (9) are arranged at the bottom end inside the box body (1), ultraviolet sterilizing lamps (10) and L ED lamps (11) are arranged on two sides of the top end inside the box body (1), a microscope camera (12) is further arranged at the top end inside the box body (1), a through hole (13) is formed in the side wall of the box body (1), and an opening and closing cover (14) is connected to the through hole (13);

and the display screen (3), the switch button (4), the temperature control device (7), the humidity control device (8), the oxygen control device (9), the ultraviolet sterilizing lamp (10), the L ED lamp (11) and the microscope camera (12) are all in communication connection with the controller (5).

2. A microbial containment apparatus as claimed in claim 1, wherein the door is provided with a handle (15).

3. A microbe conserving device according to claim 1, wherein the four corners of the bottom of the box body (1) are provided with universal wheels (16).

4. A microbial containment apparatus as claimed in claim 1, in which the top of the tank (1) is provided with a handle (17).

5. A microbial conservation device as claimed in claim 1, wherein the six walls of the tank (1) are each provided with a heat-insulating interlayer (18).

6. A microbe conserving device according to claim 1, wherein the inside of the box body (1) is further provided with a storage battery (19).

7. A microbial containment apparatus as claimed in claim 1, wherein the display screen (3) is a touch screen display.

8. The microbial containment apparatus of claim 1, wherein the microscope camera (12) is of a telescopic structure and is movably connected to the top interior end of the housing (1).

Images