CN220887540U - Microorganism culture structure - Google Patents

Abstract

The application relates to a microorganism culture structure, which comprises a mounting box body, a mounting bracket, a functional component and a containing component, wherein the mounting box body is sleeved on the peripheral wall of the mounting bracket; the functional component comprises a temperature control module, a humidity control module and a mounting plate, wherein the mounting plate is fixed on a mounting bracket, the temperature control module and the humidity control module are fixed on the mounting plate, and a communication hole is formed in the mounting bracket; the holding subassembly sets up in the mounting panel below, and the holding subassembly includes first holding board and second holding board, all is provided with holding chamber and transmission through groove on first holding board and the second holding board towards the terminal surface of mounting panel. Through the transmission through groove, the heat and the humidity generated in the communication hole can be transmitted into the accommodating cavity, so that the problems of small quantity of single-time cultured microorganisms and low space utilization rate in the microorganism culture structure are solved.

Description

Microorganism culture structure

Technical Field

The application relates to the field of microorganism culture, in particular to a microorganism culture structure.

Background

The microbial culture structure is an experimental device for culturing and reproducing microorganisms, whose main functions include precise control of temperature, humidity and gas to simulate the growth requirements of different microorganisms while maintaining a sterile environment, and is widely used in fields of medicine, biopharmaceutical, food science, environmental science, etc., for studying the growth, metabolism, genetics, etc., and for producing pharmaceuticals, food detection and ecological study.

In the related technical means, the temperature and the humidity are accurately controlled through the microorganism culture structure so as to meet the growth requirements of different microorganisms, and meanwhile, the sterile environment is maintained, and the microorganism culture structure is also provided with a real-time monitoring and data recording system and is used for high-precision experiments and data analysis.

For the technical scheme, although the traditional microorganism culture structure can control temperature, humidity and gas, in order to ensure the survival and observation of microorganisms in the microorganism culture structure, a single-layer containing structure is usually only established, so that the microorganisms can be conveniently observed in the same temperature and humidity space, and the problems of less number of microorganisms cultivated once and lower space utilization rate exist.

Disclosure of utility model

In order to solve the problems of small number of microorganisms cultivated in a single way and low space utilization rate in a microorganism cultivation structure, the application provides a microorganism cultivation structure.

The application provides a microbial culture structure, which adopts the following technical scheme:

The microbial cultivation structure comprises a mounting box body, a mounting bracket, a functional component and a containing component, wherein the mounting box body is sleeved on the peripheral wall of the mounting bracket, and the containing component and the functional component are arranged on the mounting bracket; the functional component comprises a temperature control module, a humidity control module and a mounting plate, wherein the mounting plate is fixed on the mounting bracket, a first cavity is defined by the mounting plate and the mounting bracket, and the temperature control module and the humidity control module are fixed on the mounting plate and are positioned in the first cavity; the accommodating assembly is sequentially arranged on a first accommodating plate and a second accommodating plate below the mounting plate, accommodating cavities are formed in the end faces of the first accommodating plate and the second accommodating plate, which face the mounting plate, and the accommodating cavities are used for bearing microorganisms; the connecting plate is provided with a communicating hole, the first accommodating plate and the second accommodating plate face the end face of the mounting plate and are also provided with a through transmission through groove, one end of the communicating hole is communicated with the first cavity, and the other end of the communicating hole is communicated with the transmission through groove.

Preferably, the mounting box body comprises an open end, and the first accommodating plate and the second accommodating plate penetrate through the open end to be mounted on the mounting bracket.

As a preferable scheme, a closed door is arranged on one side of the installation box body, provided with the opening end, and provided with a hinge piece and a switch handle, one end of the hinge piece is hinged with the closed door, and the other end of the hinge piece is hinged with the installation box body; the switch handle is arranged on one side of the closing door away from the hinge part, and is used for opening and closing the closing door.

As a preferable scheme, one end of the closed door, which faces the installation box body, is provided with a magnetic attraction strip, and one end of the installation box body, which faces the closed door, is provided with a magnetic attraction strip, and the magnetic attraction strip is magnetically attracted by the magnetic attraction strip.

As a preferable scheme, the side edges of the first accommodating plate and the second accommodating plate are provided with mounting blocks, the mounting bracket is provided with sliding grooves, and when the first accommodating plate and the second accommodating plate are mounted on the mounting bracket, the mounting blocks slide on the sliding grooves.

As a preferable scheme, the first accommodation plate and the second accommodation plate are both provided with support backing plates below, and the support backing plates are used for stabilizing the first accommodation plate and the second accommodation plate in the mounting bracket.

As a preferable scheme, the installation box body is provided with a control button and a display screen, the control button is used for adjusting the temperature control module and the humidity control module, and the display screen is used for displaying parameters of the temperature control module and the humidity control module.

As a preferable scheme, the bottom of the installation box body is provided with an adjusting cushion block, and the adjusting cushion block is used for adjusting the parallelism of the installation box body.

Compared with the prior art, the application has the following beneficial effects: the cultivation quantity is large, and the space utilization rate is high. The mounting box body is sleeved on the peripheral wall of the mounting bracket to form a cultivation structure. Then, the accommodation assembly and the functional assembly are provided on the mounting bracket. The functional component comprises a temperature control module, a humidity control module and a mounting plate. The mounting panel is fixed in the upper end of installing support, and with accuse temperature module and accuse wet module connection on the mounting panel through the bolt. The mounting bracket is provided with a communication hole for transmitting heat and humidity generated by the temperature control module and the humidity control module. The holding subassembly is used for holding microorganism, sets up in the below of mounting panel, including first accommodation board and second accommodation board. The end faces of the two accommodating plates, which face the mounting plate, are provided with accommodating cavities and transmission through grooves. Through the receiving chamber, the microorganisms may be carried by the carrier. Through the transmission through groove, heat and humidity generated in the communication hole can be transmitted into the accommodating cavity, so that the problems of small quantity of single-time cultivation microorganisms and low space utilization rate in the microorganism culture structure are solved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

The structures, proportions, sizes, etc. shown in the drawings are shown only in connection with the present disclosure, and are not intended to limit the scope of the utility model, since any modification, variation in proportions, or adjustment of the size, etc. of the structures, proportions, etc. should be considered as falling within the spirit and scope of the utility model, without affecting the effect or achievement of the objective.

FIG. 1 is a schematic diagram showing the overall structure of a microorganism culture structure according to an embodiment of the present application;

FIG. 2 is an exploded view of a microorganism culture structure according to an embodiment of the present application;

fig. 3 is a partially enlarged view of a portion "a" in fig. 2.

Reference numerals illustrate:

1. Installing a box body; 11. an open end; 111. closing the door; 1111. a hinge; 1112. a switch handle; 1113. a magnetic suction block; 12. a magnetic strip; 13. a control button; 14. a display screen; 15. adjusting the cushion block; 2. a mounting bracket; 21. a sliding groove; 3. a functional component; 31. a temperature control module; 32. a humidity control module; 33. a mounting plate; 331. a communication hole; 4. an accommodating assembly; 41. a first receiving plate; 42. a second receiving plate; 43. a receiving chamber; 44. a transfer through groove; 45. a mounting block; 46. and (5) supporting the backing plate.

Detailed Description

In order to make the objects, features and advantages of the present utility model more comprehensible, the technical solutions in the embodiments of the present utility model are described in detail below with reference to the accompanying drawings, and it is apparent that the embodiments described below are only some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "top", "bottom", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. It is noted that when one component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present.

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

Referring to fig. 1 to 3, a microorganism culture structure comprises a mounting box 1, a mounting bracket 2, a functional component 3 and a containing component 4, wherein the mounting box 1 is sleeved on the peripheral wall of the mounting bracket 2 to form a culture structure, and the containing component 4 and the functional component 3 are arranged on the mounting bracket 2; the functional component 3 comprises a temperature control module 31, a humidity control module 32 and a mounting plate 33, wherein the mounting plate 33 is fixed at the upper end of the mounting bracket 2, the temperature control module 31 and the humidity control module 32 are connected and fixed on the mounting plate 33 through bolts, and a communication hole 331 is formed in the mounting bracket 2, and the communication hole 331 is used for transmitting heat and humidity of the temperature control module 31 and the humidity control module 32; the containing component 4 for containing microorganisms is arranged below the mounting plate 33, the containing component 4 comprises a first containing plate 41 and a second containing plate 42, the end faces of the first containing plate 41 and the second containing plate 42, which face the mounting plate 33, are provided with containing cavities 43 and transfer through grooves 44, microorganisms are borne by the containing cavities 43, heat and humidity transferred by the communication holes 331 are transferred through the transfer through grooves 44, and therefore the problems that the number of single-time cultured microorganisms is small and the space utilization rate is low in a microorganism culture structure are solved.

Referring to fig. 1 to 3, a mounting case 1, which is sleeved on a mounting bracket 2, includes an open end 11, and a first receiving plate 41 and a second receiving plate 42 are installed on the mounting bracket 2 through the open end 11, thereby improving the problem of inconvenient installation of the first receiving plate 41 and the second receiving plate 42 on the mounting bracket 2; wherein, the opening end 11 is provided with a closing door 111, the closing door 111 is provided with a hinge 1111 and a switch handle 1112, one end of the hinge 1111 is hinged with the closing door 111, and the other end of the hinge 1111 is hinged with the installation box 1, so that the closing door 111 can be closed on the installation box 1; a switch handle 1112 is provided on a side of the closure door 111 remote from the hinge 1111, the switch handle 1112 facilitating opening and closing of the closure door 111.

Referring to fig. 1 to 3, a magnetic attraction block 1113 is disposed at one end of the closing door 111 facing the mounting case 1, and a magnetic attraction strip 12 is disposed at one end of the mounting case 1 facing the closing door 111, wherein the magnetic attraction block 1113 is opposite to the magnetic attraction strip 12, and when the closing door 111 is closed with the mounting case 1, the magnetic attraction block 1113 magnetically attracts the magnetic attraction strip 12 to form a firm connection between the closing door 111 and the mounting case 1, thereby ensuring close closing of the door, ensuring stability of temperature and humidity in the mounting case 1, and improving the problem that substances such as external dust and sundries enter the mounting case 1.

Referring to fig. 1 to 3, in order to facilitate the installation of the first and second receiving plates 41 and 42 on the cultivating structure, the first and second receiving plates 41 and 42 are provided with mounting blocks 45 at sides thereof, and the mounting bracket 2 is provided with sliding grooves 21, such that the mounting blocks 45 slide on the sliding grooves 21, and such that the first and second receiving plates 41 and 42 can be installed and slid on the mounting bracket 2.

Further, in order to ensure the stability of the first accommodating plate 41 and the second accommodating plate 42 on the mounting bracket 2, support base plates 46 are arranged below the first accommodating plate 41 and the second accommodating plate 42, and the support base plates 46 are fixed on the mounting bracket 2 through connecting blocks, so that the problem of poor stability when the first accommodating plate 41 and the second accommodating plate 42 are pulled out on the mounting bracket 2 is solved.

Referring to fig. 1 to 3, a control button 13 and a display screen 14 are provided on the mounting case 1, and the controller, the display screen 14, the temperature control module 31 and the humidity control module 32 are all connected with a control main board (not shown in the drawings), so that the control button 13 adjusts the temperature control module 31 and the humidity control module 32 to achieve desired temperature and humidity conditions; the display screen 14 is used for displaying the parameter information of the temperature control module 31 and the humidity control module 32 in real time, so that the temperature control module 31 and the humidity control module 32 are convenient to monitor and adjust, the accurate control of the temperature and the humidity can be easily realized, and the related parameter information can be conveniently obtained.

Referring to fig. 1 to 3, an adjusting block 15 is connected to the bottom of the mounting case 1 by bolts, and the adjusting block 15 functions to adjust the parallelism of the mounting case 1. Through the adjusting cushion block 15 arranged at the bottom of the installation box body 1, the installation box body 1 can be slightly adjusted according to the requirement, so that the installation box body 1 is kept in a horizontal and parallel state, the problem that the installation box body 1 is not parallel due to uneven ground or other factors is solved, the stability and the level of the installation box body 1 are ensured, and meanwhile, better safety is provided.

The implementation principle of the microbial culture structure of the embodiment of the application is as follows: first, the mounting case 1 is fitted over the outer peripheral wall of the mounting bracket 2 to form a cultivation structure. This mounting case 1 serves as protection and isolation in addition to providing a space for accommodating microorganisms.

Next, a mounting plate 33 is fixed to the upper end of the mounting bracket 2, and a temperature control module 31 and a humidity control module 32 are mounted on the mounting plate 33. The temperature control module 31 and the humidity control module 32 are mounted on the mounting plate 33 in a bolt connection manner, and heat and humidity of the temperature control module 31 and the humidity control module 32 can be transferred to the culture structure through the communication holes 331 formed in the mounting bracket 2.

Then, below the mounting plate 33, there is provided a housing assembly 4, which is constituted by a first housing plate 41 and a second housing plate 42. The end faces of the two receiving plates facing the mounting plate 33 are respectively provided with a receiving chamber 43 and a transfer through groove 44. The receiving chamber 43 is used for carrying microorganisms, and the transfer through groove 44 is used for transferring heat and humidity from the communication hole 331. By this design, the problems of a small number of microorganisms and a low space utilization rate existing in the microorganism culture structure can be improved.

In order to solve the problem of difficulty in mounting the first and second receiving plates 41 and 42 on the mounting bracket 2, the first and second receiving plates 41 and 42 are inserted through the open end 11 of the mounting case 1, and the closing door 111 is provided at the position of the open end 11. The closing door 111 is provided with a switch handle 1112 and a hinge 1111, the switch handle 1112 being closable on the mounting case 1, and the hinge 1111 serving to connect the closing door 111 and the mounting case 1. So that the first and second receiving plates 41 and 42 can be conveniently mounted on the mounting bracket 2.

In order to ensure that the closing door 111 is tightly closed and prevent external dust and sundries from entering the inside of the installation box body 1, a magnetic block 1113 is arranged at one end of the closing door 111 facing the installation box body 1, and a magnetic strip 12 is arranged at one end of the installation box body 1 facing the closing door 111. When the closing door 111 is closed with the installation case 1, the magnetic attraction block 1113 is magnetically attracted to the magnetic attraction strip 12, so that a firm connection is formed between the closing door 111 and the installation case 1.

In order to facilitate the mounting of the first and second receiving plates 41 and 42 on the mounting bracket 2, mounting blocks 45 are provided at the sides of the first and second receiving plates 41 and 42. Meanwhile, a sliding groove 21 is provided on the mounting bracket 2 so that the mounting block 45 can slide on the sliding groove 21. In this way, the first and second receiving plates 41 and 42 can be conveniently mounted and slid on the mounting bracket 2.

To increase the stability of the first and second receiving plates 41, 42 on the mounting bracket 2, we have provided support pads 46 under both the first and second receiving plates 41, 42. These support pads 46 are fixed to the mounting bracket 2 by connecting blocks, thereby improving the stability of the first and second receiving plates 41 and 42 when they are drawn on the mounting bracket 2, making them more firm and stable.

Furthermore, a control button 13 and a display screen 14 are provided on the mounting case 1. These buttons and display 14 are connected to the control motherboard for controlling and displaying in real time the parameter information of the temperature control module 31 and the humidity control module 32. By controlling the buttons 13, the temperature control module 31 and the humidity control module 32 can be adjusted to meet the desired temperature and humidity conditions. The display screen 14 can display real-time parameter information of the temperature control module 31 and the humidity control module 32, so that the monitoring and adjustment operation are convenient, the accurate control of the temperature and the humidity is realized, and the related parameter information is easily obtained.

Finally, the parallelism of the mounting box body 1 is adjusted by the bottom bolting and adjusting cushion block 15, so that the horizontal state of the mounting box body 1 can be finely adjusted according to the requirement, the problem of non-parallel box body caused by uneven ground or other factors is solved, the stability and the horizontality of the mounting box body 1 are ensured, and better safety is provided.

Through implementation of the working steps, the microorganism culture structure can effectively solve the problems of small microorganism quantity and low space utilization rate, improve the culture effect and provide convenient operation and monitoring functions.

The above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (8)

1. The microbial cultivation structure is characterized by comprising a mounting box body (1), a mounting bracket (2), a functional component (3) and a containing component (4), wherein the mounting box body (1) is sleeved on the peripheral wall of the mounting bracket (2), and the containing component (4) and the functional component (3) are arranged on the mounting bracket (2);

The functional component (3) comprises a temperature control module (31), a humidity control module (32) and a mounting plate (33), wherein the mounting plate (33) is fixed on the mounting bracket (2), the mounting plate (33) and the mounting bracket (2) are enclosed to form a first cavity, and the temperature control module (31) and the humidity control module (32) are fixed on the mounting plate (33) and are positioned in the first cavity;

The accommodating assembly (4) is sequentially arranged on a first accommodating plate (41) and a second accommodating plate (42) below the mounting plate (33), accommodating cavities (43) are formed in the end faces of the first accommodating plate (41) and the second accommodating plate (42) facing the mounting plate (33), and the accommodating cavities (43) are used for bearing microorganisms;

The mounting plate (33) is provided with a communication hole (331), the first accommodating plate (41) and the second accommodating plate (42) face the end face of the mounting plate (33) and are also provided with a through transmission through groove (44), one end of the communication hole (331) is communicated with the first cavity, and the other end of the communication hole (331) is communicated with the transmission through groove (44).

2. A microbial cultivation structure according to claim 1, wherein the mounting box (1) comprises an open end (11), the first receiving plate (41) and the second receiving plate (42) being mounted on the mounting bracket (2) through the open end (11).

3. A microbial cultivation structure as claimed in claim 2, wherein a closing door (111) is provided on the side of the installation box (1) provided with the open end (11), a hinge member (1111) and a switch handle (1112) are provided on the closing door (111), one end of the hinge member (1111) is hinged with the closing door (111), and the other end is hinged with the installation box (1);

The switch handle (1112) is arranged at a side of the closing door (111) remote from the hinge (1111), the switch handle (1112) being used for opening and closing the closing door (111).

4. A microbial cultivation structure according to claim 3, wherein one end of the closing door (111) facing the mounting box (1) is provided with a magnetic attraction block (1113), one end of the mounting box (1) facing the closing door (111) is provided with a magnetic attraction bar (12), and the magnetic attraction block (1113) is magnetically attracted to the magnetic attraction bar (12).

5. A microbial cultivation structure as claimed in claim 1, characterised in that said first receiving plate (41) and said second receiving plate (42) are provided with mounting blocks (45) at their sides, said mounting bracket (2) is provided with a sliding groove (21), and said mounting blocks (45) slide on said sliding groove (21) when said first receiving plate (41) and said second receiving plate (42) are mounted on said mounting bracket (2).

6. A microbial cultivation structure according to claim 1, wherein a support pad (46) is provided below the first and second accommodation plates (41, 42), the support pad (46) being for the first and second accommodation plates (41, 42) to be stabilized in the mounting bracket (2).

7. The microbial cultivation structure as claimed in claim 1, wherein a control button (13) and a display screen (14) are provided on the installation box body (1), the control button (13) is used for adjusting the temperature control module (31) and the humidity control module (32), and the display screen (14) is used for displaying parameters of the temperature control module (31) and the humidity control module (32).

8. A microbial cultivation structure according to claim 1, wherein the bottom of the installation box (1) is provided with an adjusting cushion block (15), and the adjusting cushion block (15) is used for adjusting the parallelism of the installation box (1).