CN116640657A - Microorganism culture equipment with temperature control ring - Google Patents

Abstract

The application provides microorganism culture equipment with a temperature control ring, which is characterized in that after collection, microorganisms in an internal culture dish can be observed and recorded through a transparent upper dish top and a transparent box top when the microorganism culture equipment is placed in a normal temperature state for microorganism culture through the cooperation of the upper dish top and the temperature control ring. When the temperature of the environment in which the culture apparatus is placed is low. The temperature control instrument can be used for heating the temperature control ring, the temperature control ring is an electric heating ring, the temperature of the culture equipment can be raised through the temperature control instrument, and the temperature control ring is positioned under the unit type incubator, so that the temperature control ring can be more rapidly heated, and the temperature control can be more directly carried out.

Description

Microorganism culture equipment with temperature control ring

The application relates to a division application of application number 202111021417.2, application day 2021, 09 and 01, and the application name is 'a microbial culture device for livestock quarantine'.

Technical Field

The application belongs to the technical field of livestock quarantine microorganism collection, and particularly relates to microorganism culture equipment containing a temperature control ring.

Background

In the animal husbandry, the serious threat of animal husbandry development is caused when infectious diseases among animals are transmitted through microorganisms such as viruses and bacteria, the harm is wide, and in order to avoid the infectious diseases with serious threat in the animal husbandry development, a feeder needs to detect the whole animals, isolate the animals with the viruses or the bacteria, and block the transmission path of the viruses of the animals.

For example, application number: CN202020200641.2 discloses a microorganism culture equipment for poultry animal doctor, which comprises a fixing rack, a side of mount is open structure, and the inside swing joint of mount has the rack, is provided with the culture dish on the rack, is provided with the sealing plug in the middle of the top of culture dish, the top of mount is provided with the connection draw-in groove, and the bottom of mount is provided with the connection boss, connection draw-in groove and connection boss are used for interconnect between a plurality of mounts.

Based on the retrieval of the above patent and the structural discovery in the combination with the prior art, when the microorganism collection equipment is similar to the microorganism collection equipment in the above patent, after sample collection, the culture dish is needed to be used for storage, if the collected samples are more, the number of the culture dishes is more, so that the transportation and the storage of more culture dishes are inconvenient, and the management of the culture process is not facilitated.

Disclosure of Invention

In order to solve the above technical problems, the present application provides a microorganism culture apparatus with a temperature control ring, so as to solve and combine the problems that, similar to the microorganism collection apparatus in the prior art, after sample collection, a culture dish is needed to be used for storage, if the collected samples are more, the number of the culture dishes is more, so that the transportation and storage of more culture dishes are inconvenient, and the management of the culture process is inconvenient.

The application discloses a microorganism culture device with a temperature control ring, which is characterized by comprising the following specific technical means:

a microorganism culture device with a temperature control ring comprises a lower dish bottom; the upper part of the lower dish bottom is fixedly connected with a side dish wall, the lower dish bottom comprises a bottom plate center shaft, and the bottom plate center shaft is fixedly connected to the middle position of the upper surface of the lower dish bottom; the guide ring is fixedly connected to the upper surface of the lower dish bottom; the temperature control ring is fixedly connected to the upper surface of the bottom of the lower dish, the temperature control instrument of the temperature control ring is fixedly connected to the side dish wall, and the temperature control ring is positioned below the unit type incubator; the upper dish top is fixedly connected above the side dish wall, and the material taking sliding cover is connected on the upper dish top in a sliding manner; the upper connecting plate and the lower connecting plate of the tectorial membrane sealing assembly are respectively and fixedly connected to the bottom of the lower dish and the side edge of the top of the upper dish; the movable positioning wheel disc is rotationally connected to the bottom plate center shaft through a bearing, sixteen unit-type incubators are fixedly connected to the movable positioning wheel disc, two placing grooves are formed in the unit-type incubators, the unit-type incubators comprise flaring guard plates, the flaring guard plates are fixedly connected to the opening positions of the placing grooves of the unit-type incubators, and the flaring guard plates are of flaring structures with wide outside and narrow inside; the movable culture box is movably connected inside the unit type incubator; the circulating disc is rotatably connected to the bottom plate center shaft through a bearing, and the circulating disc is positioned above the movable positioning wheel disc.

Further, the side dish wall comprises side air outlet holes, the side air outlet holes are formed in the bottom of the side dish wall, and the side air outlet holes are rectangular cylinder holes.

Further, the upper dish top is of a disc structure made of transparent plastic materials, and comprises an upper air inlet cover which is fixedly connected in the middle of an upper circular groove of the upper dish top; the guiding chute is arranged on the side wall of the upper dish top slot, and a positioning magnetic block is fixedly connected to the middle position behind the guiding chute and is a permanent magnet with a rectangular structure.

Further, the material taking sliding cover is a rectangular plate made of transparent plastic, the material taking sliding cover comprises a positioning magnet which is fixedly connected to the inner end of the upper surface of the material taking sliding cover, and the positioning magnet is a rectangular permanent magnet; the side convex rail is arranged on the two side walls and the rear edge wall of the material taking sliding cover.

Further, the film-covered sealing assembly comprises a film-body winding column which is rotationally connected between the upper wall and the lower wall of the film-covered sealing assembly, and a sealing film is wound on the film-body winding column; the reversing steering column is actively connected between the bottom of the lower dish and the top of the upper dish, and is positioned at the inner side of the film winding column.

Further, the movable positioning wheel disc comprises positioning clamping blocks, sixteen positioning clamping blocks are arranged on the positioning clamping blocks, the sixteen positioning clamping blocks are fixedly connected to the upper surface of the movable positioning wheel disc, and each positioning clamping block is fixedly connected with a unit-type incubator.

Further, the circulation disk comprises a circulation inclined channel, the circulation inclined channel is arranged on the upper surface of the circulation inclined channel, and the circulation inclined channel is obliquely arranged.

Further, the portable cultivation box is made for transparent plastics material including transparent box top, and transparent box top establishes in portable cultivation box's top to the dismantlement handle of arch structure is connected with to transparent box top's top fixedly.

Compared with the prior art, the application has the following beneficial effects:

through the cooperation of the unit type incubator and the movable type incubator of this structure, the sample that will gather through the open position of side dish wall is adorned in the unit type incubator, is equipped with two places on the unit type incubator and deposits the region to through the baffle separation, be used for placing the collection sample, place the sample from flaring backplate position, can be convenient for assistance-localization real-time sample place the region, the movable type incubator inside groove bottom in the unit type incubator is equipped with the culture solution, is used for cultivateing the microorganism sample.

Through the cooperation of the movable positioning wheel disc and the tectorial membrane seal assembly of this structure, the sample is deposited the back, rotates the unit formula incubator to the left, makes movable positioning wheel disc rotate, covers the sealing membrane in flaring backplate department simultaneously to will be at the unit formula incubator that rotates unit formula incubator in-process left and be located the switching-over steering column position sealed, be equipped with thirty-two sample on the sample collection culture apparatus and deposit the region, can be used to carry out on a large scale, a large number of animal inspection, portable.

Through the cooperation of last ware top and the control by temperature change ring of this structure, after gathering, place under normal atmospheric temperature state, when carrying out microorganism culture, the microorganism in the inside culture dish is observed with transparent box top on the upper ware top of accessible transparent material, record. When the temperature of the environment in which the culture apparatus is placed is low. The temperature control instrument can be used for heating the temperature control ring, the temperature control ring is an electric heating ring, the temperature of the culture equipment can be raised through the temperature control instrument, and the temperature control ring is positioned under the unit type incubator, so that the temperature control ring can be more rapidly heated, and the temperature control can be more directly carried out.

Through the cooperation of circulation dish and the circulation slant passageway of this structure, if the temperature in the unit formula incubator is too high, the steerable control by temperature change fan rotates, with external air current guide to the circulation on the dish, through the circulation slant passageway effect of circulation dish down, on distributing the unit formula incubator of periphery with the air current, simultaneously, because the effect of circulation slant passageway incline direction, make produce the reaction force when carrying out the air diffusion through the circulation dish, make the circulation dish rotate, carry out rotary type circulation heat dissipation to unit formula incubator, gas can flow out from the side apopore finally, play the effect of rapid cooling, when taking out the cultivation sample, will get the material sliding closure outward pulling, reuse sampling hook or sampling clamp fixed dismantlement handle, with portable cultivation box vertical upward extraction, can take out the microorganism cultivation sample, convenient for seal and deposit, be convenient for concentrate observe and the probability.

Drawings

Fig. 1 is a schematic structural view of the present application.

FIG. 2 is a schematic view of the structure of the upper dish top of the present application.

Fig. 3 is a schematic diagram of a split structure of the present application.

Fig. 4 is a schematic view of the structure of the movable positioning wheel of the present application.

Fig. 5 is a schematic top view of the flow-through plate of the present application.

FIG. 6 is a schematic view showing the structure of the unit incubator of the present application.

Fig. 7 is a schematic view of a partially enlarged structure of fig. 3 a according to the present application.

Fig. 8 is a schematic view of a partially enlarged structure of fig. 3B according to the present application.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a bottom of the dish is arranged; 101. a bottom plate center shaft; 102. a guide ring; 103. a temperature control ring; 1031. a temperature control instrument; 2. a side dish wall; 201. a side air outlet hole; 3. loading the dish top; 301. an upper air inlet cover; 302. a guide chute; 303. positioning a magnetic block; 4. a material taking sliding cover; 401. positioning a magnet; 402. a side convex rail; 5. a film-covered sealing assembly; 501. winding a column by a film body; 5011. a sealing film; 502. a steering column; 6. a movable positioning wheel disc; 601. positioning the clamping blocks; 7. a circulation disk; 701. a flow-through diagonal channel; 8. a unit-type incubator; 801. a flaring guard board; 802. a mobile culture box; 8021. a transparent box top; 8022. disassembling the handle; 9. a temperature-controlled fan.

Description of the embodiments

Embodiments of the present application are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the application but are not intended to limit the scope of the application.

In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the application and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the application. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

Examples

As shown in fig. 1 to 8:

the application provides microorganism culture equipment for livestock quarantine, which comprises a lower dish bottom 1; the side dish wall 2 is fixedly connected above the lower dish bottom 1, the side dish wall 2 comprises a side air outlet 201, the side air outlet 201 is formed in the bottom of the side dish wall 2, the side air outlet 201 is a rectangular cylindrical hole, and the side dish wall 2 with the structure is shown in fig. 2; the upper dish top 3 is fixedly connected above the side dish wall 2, and the upper dish top 3 is connected with a material taking sliding cover 4 in a sliding manner; the upper connecting plate and the lower connecting plate of the tectorial membrane sealing component 5 are respectively and fixedly connected with the side edge positions of the lower dish bottom 1 and the upper dish top 3; the movable positioning wheel disc 6 is rotatably connected to the bottom plate center shaft 101 through a bearing, sixteen unit-type incubators 8 are fixedly connected to the movable positioning wheel disc 6, the movable positioning wheel disc 6 comprises positioning clamping blocks 601, sixteen positioning clamping blocks 601 are arranged, the sixteen positioning clamping blocks 601 are fixedly connected to the upper surface of the movable positioning wheel disc 6, one unit-type incubator 8 is fixedly connected to each positioning clamping block 601, and the movable positioning wheel disc 6 with the structure is shown in fig. 4, and the movable positioning wheel disc 6 is used for installing the unit-type incubators 8; the circulation disk 7 is rotatably connected to the bottom plate center shaft 101 through a bearing, and the circulation disk 7 is positioned above the movable positioning wheel disk 6.

The lower dish bottom 1 comprises a bottom plate center shaft 101, and the bottom plate center shaft 101 is fixedly connected to the middle position of the upper surface of the lower dish bottom 1; the guide ring 102 is fixedly connected to the upper surface of the lower dish bottom 1; the temperature control ring 103 is fixedly connected to the upper surface of the lower dish bottom 1, the temperature control instrument 1031 of the temperature control ring 103 is fixedly connected to the side dish wall 2, and the temperature control ring 103 is located below the unit type incubator 8, and the lower dish bottom 1 with the structure is shown in fig. 3, when the environment temperature of the culture equipment is low. The temperature control instrument 1031 can be used for heating the temperature control ring 103, the Wen Konghuan is an electric heating ring, the temperature of the culture equipment can be raised through the temperature control instrument 1031, the temperature control ring 103 is located under the unit type culture device 8, the heating effect brought by the temperature control ring 103 can be more rapidly received, the temperature control is more directly carried out, and the guide ring 102 plays a role in guiding the rotation of the unit type culture device 8 and the movable positioning wheel disc 6.

Wherein, the upper dish top 3 is a disc structure made of transparent plastic material, the upper dish top 3 comprises an upper air inlet cover 301, and the upper air inlet cover 301 is fixedly connected in the middle of a circular groove above the upper dish top 3; the guide chute 302 is arranged on the grooved side wall of the upper dish top 3, a positioning magnetic block 303 is fixedly connected to the middle position behind the guide chute 302, the positioning magnetic block 303 is a permanent magnet with a rectangular structure, the upper dish top 3 with the structure is shown in fig. 1, when microorganisms are cultivated, the microorganisms in the internal culture dish can be observed and recorded through the upper dish top 3 made of transparent materials and the transparent box top 8021, the material taking sliding cover 4 is a rectangular plate made of transparent materials, the material taking sliding cover 4 comprises a positioning magnet 401, the positioning magnet 401 is fixedly connected to the inner end of the upper surface of the material taking sliding cover 4, and the positioning magnet 401 is a rectangular permanent magnet; the side convex rails 402 are disposed on two side walls and a rear edge wall of the material taking sliding cover 4, as shown in fig. 1, the material taking sliding cover 4 with the structure is slidably connected in the guide chute 302, that is, the movable culturing box 802 is taken out through the material taking sliding cover 4, and the positioning magnet 303 and the positioning magnet 401 play a role in fixing the material taking sliding cover 4.

The film-covered sealing assembly 5 comprises a film-covered winding column 501, wherein the film-covered winding column 501 is rotationally connected between the upper wall and the lower wall of the film-covered sealing assembly 5, and a sealing film 5011 is wound and connected on the film-covered winding column 501; the reversing steering column 502 is actively connected between the lower dish bottom 1 and the upper dish top 3, and the reversing steering column 502 is positioned at the inner side of the film wrapping column 501, and the film covering sealing component 5 with the structure is shown in fig. 2, after a sample is stored, the movable positioning wheel disk 6 is rotated by rotating the unit type incubator 8 leftwards, and meanwhile, the sealing film 5011 is covered at the flaring guard plate 801, and the unit type incubator 8 positioned at the reversing steering column 502 is sealed in the process of rotating the unit type incubator 8 leftwards.

The circulation tray 7 includes a circulation slant channel 701, the circulation slant channel 701 is disposed on an upper surface of the circulation slant channel 701, and the circulation slant channel 701 is disposed obliquely, as shown in fig. 5, if the temperature in the unit type incubator 8 is too high, the temperature control fan 9 can be controlled to rotate, the outside air flow is guided to the circulation tray 7, the air flow is distributed to the unit type incubator 8 on the periphery under the action of the circulation slant channel 701 of the circulation tray 7, and meanwhile, due to the action of the slant direction of the circulation slant channel 701, a reaction force is generated when the air is diffused by the circulation tray 7, the circulation tray 7 rotates, the unit type incubator 8 is subjected to rotary circulation heat dissipation, and the air can flow out from the side air outlet 201 to perform a rapid cooling function.

Wherein, two placing grooves are arranged on the unit type incubator 8, the unit type incubator 8 comprises a flaring guard plate 801, the flaring guard plate 801 is fixedly connected to the opening position of the placing groove of the unit type incubator 8, and the flaring guard plate 801 is of a flaring structure with wide outside and narrow inside; the movable culture box 802 is movably connected in the unit-type incubator 8, the movable culture box 802 comprises a transparent box top 8021, the transparent box top 8021 is made of transparent plastic materials, the transparent box top 8021 is arranged above the movable culture box 802, an arched structure disassembling handle 8022 is fixedly connected to the upper part of the transparent box top 8021, the unit-type incubator 8 is shown in fig. 6, after the samples are collected for animals, the collected samples are filled in the unit-type incubator 8 through the opening position of the side dish wall 2, two storage areas are respectively arranged on the unit-type incubator 8 and separated through a partition plate for storing collected samples, the samples are placed in the flaring guard 801, the auxiliary positioning of the sample storage areas can be conveniently performed, and the culture solution is arranged at the bottom of the inner groove of the movable culture box 802 in the unit-type incubator 8 and used for culturing the microbial samples.

When in use, the utility model is characterized in that: firstly, when the sample collection device is used, the sample collection device is carried into an animal collection area, after the animal is collected, the collected sample is filled into the unit type incubator 8 through the opening position of the side dish wall 2, two storage areas are respectively arranged on the unit type incubator 8 and separated through the partition plate, the collected sample is placed in the storage area from the position of the flaring guard plate 801, the auxiliary positioning sample placement area can be conveniently carried out, the culture solution is arranged at the bottom of the inner groove of the movable culture box 802 in the unit type incubator 8, the microorganism sample is cultured, after the sample is stored, the unit type incubator 8 is rotated leftwards, the movable positioning wheel disc 6 is rotated, meanwhile, the sealing film 5011 is covered at the position of the flaring guard plate 801, the unit type incubator 8 is sealed in the process of rotating the unit type incubator 8 leftwards, thirty-two sample storage areas are arranged on the sample collection and culture device, and the movable culture box 802 can be used for carrying out large-scale and large-quantity animal inspection, and the movable culture device is convenient to carry. After collection, the culture medium is placed in a normal temperature state, and when microorganism culture is carried out, microorganisms in an internal culture dish can be observed and recorded through the upper dish top 3 and the transparent box top 8021 which are made of transparent materials. When the temperature of the environment in which the culture apparatus is placed is low. The temperature control instrument 1031 can be used for heating the temperature control ring 103, wen Konghuan is an electric heating ring, the temperature control instrument 1031 can be used for heating the culture equipment, the temperature control ring 103 is located under the unit type incubator 8, the heating effect brought by the temperature control ring 103 can be more rapidly received, the temperature control can be more directly carried out, if the temperature in the unit type incubator 8 is too high, the temperature control fan 9 can be controlled to rotate, the outside air flow is guided to the circulation tray 7, the air flow is distributed to the unit type incubator 8 on the periphery under the action of the circulation inclined channel 701 of the circulation tray 7, meanwhile, the circulation tray 7 generates a reaction force under the action of the inclined direction of the circulation inclined channel 701, the circulation tray 7 rotates, the unit type incubator 8 is subjected to rotary circulation heat dissipation, the air can finally flow out from the side air outlet hole 201, the effect of rapidly cooling is achieved, the sample taking 4 is pulled outwards when the culture sample is taken out, the sample taking box 802 is fixedly detached by using the sampling hook or the sampling clamp, and the microorganism sample can be vertically taken out.

The embodiments of the application have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the application in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the application and the practical application, and to enable others of ordinary skill in the art to understand the application for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (5)

1. A microbial cultivation apparatus comprising a temperature control loop, characterized in that: the microorganism culture equipment is used for livestock quarantine and comprises a lower dish bottom (1); a side dish wall (2) is fixedly connected above the lower dish bottom (1);

the upper dish top (3), the upper dish top (3) is fixedly connected above the side dish wall (2), and the upper dish top (3) is connected with a material taking sliding cover (4) in a sliding manner;

the upper connecting plate and the lower connecting plate of the film coating sealing assembly (5) are respectively and fixedly connected to the side positions of the lower dish bottom (1) and the upper dish top (3);

the movable positioning wheel disc (6), the movable positioning wheel disc (6) is rotatably connected to the bottom plate center shaft (101) through a bearing, and sixteen unit incubators (8) are fixedly connected to the movable positioning wheel disc (6);

the circulating disc (7) is rotationally connected to the bottom plate center shaft (101) through a bearing, and the circulating disc (7) is positioned above the movable positioning wheel disc (6);

the temperature control fan (9) is fixedly connected to the upper end of the bottom plate center shaft (101); the lower dish bottom (1) comprises:

the bottom plate center shaft (101), the bottom plate center shaft (101) is fixedly connected to the middle position of the upper surface of the lower dish bottom (1);

the guide ring (102), the guide ring (102) is fixedly connected to the upper surface of the lower dish bottom (1);

the temperature control ring (103), the temperature control ring (103) is fixedly connected to the upper surface of the lower dish bottom (1), the temperature control instrument (1031) of the temperature control ring (103) is fixedly connected to the side dish wall (2), and the temperature control ring (103) is positioned below the unit type incubator (8);

the side dish wall (2) comprises:

the side air outlet holes (201) are formed in the bottom of the side dish wall (2), and the side air outlet holes (201) are rectangular cylinder holes;

the film-covered sealing component (5) comprises:

the film body winding column (501), the film body winding column (501) is rotationally connected between the upper wall and the lower wall of the film coating sealing component (5), and the sealing film (5011) is wound and connected on the film body winding column (501);

the reversing steering column (502), the reversing steering column (502) is actively connected between the lower dish bottom (1) and the upper dish top (3), and the reversing steering column (502) is positioned at the inner side of the film winding column (501);

the flow-through tray (7) comprises:

the circulating inclined channel (701), the circulating inclined channel (701) is arranged on the upper surface of the circulating inclined channel (701), and the circulating inclined channel (701) is obliquely arranged;

two placing grooves are formed in the unit type incubator (8), and the unit type incubator (8) comprises:

the flaring guard plate (801), the flaring guard plate (801) is fixedly connected to the opening position of the placing groove of the unit incubator (8), and the flaring guard plate (801) is of a flaring structure with wide outside and narrow inside;

a movable culture box (802), wherein the movable culture box (802) is movably connected inside the unit type incubator (8);

the upper dish top (3) is of a disc structure;

the material taking sliding cover (4) is a rectangular plate.

2. The microorganism culture apparatus of claim 1, wherein: the upper dish top (3) comprises:

an upper air inlet cover (301), wherein the upper air inlet cover (301) is fixedly connected in the middle of the upper circular groove of the upper dish top (3);

the guide chute (302), the guide chute (302) is arranged on the grooved side wall of the upper dish top (3), and a positioning magnetic block (303) is fixedly connected to the middle position behind the guide chute (302), and the positioning magnetic block (303) is a permanent magnet with a rectangular structure.

3. The microorganism culture apparatus of claim 1, wherein: the material taking sliding cover (4) comprises:

the positioning magnet (401), the positioning magnet (401) is fixedly connected to the inner end of the upper surface of the material taking sliding cover (4), and the positioning magnet (401) is a rectangular permanent magnet;

the side convex rails (402) are arranged on the two side walls and the rear edge wall of the material taking sliding cover (4).

4. The microorganism culture apparatus of claim 1, wherein: the movable positioning wheel disc (6) comprises:

the positioning clamping blocks (601), the positioning clamping blocks (601) are provided with sixteen positions, the sixteen positioning clamping blocks (601) are fixedly connected to the upper surface of the movable positioning wheel disc (6), and each positioning clamping block (601) is fixedly connected with a unit-type incubator (8).

5. The microorganism culture apparatus of claim 1, wherein: the movable culture box (802) comprises:

transparent box top (8021), transparent box top (8021) are made for transparent plastics material, and transparent box top (8021) establish in the top of portable cultivation box (802) to the dismantlement handle (8022) of arch structure is connected with to the top of transparent box top (8021).