CN113462553A

CN113462553A - Biological flora cultivates monitoring system

Info

Publication number: CN113462553A
Application number: CN202110808245.7A
Authority: CN
Inventors: 蔡正远
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-16
Filing date: 2021-07-16
Publication date: 2021-10-01

Abstract

The invention discloses a biological flora culture monitoring system, which structurally comprises an operation block, an operation box, a closing door, an oxygen generation block and a cover body, wherein the operation block is arranged on the operation box, the operation box is movably connected with the operation block, the closing door is arranged on the operation box, the operation box is in clearance fit with the closing door, the oxygen generation block is arranged on the operation box, the operation box is connected with the oxygen generation block, the cover body is arranged on the operation box, and the operation box is embedded with the cover body, the adjustment monitoring structure after the monitoring is replaced by the adjustment monitoring structure which is not monitored through the assembly connecting structure of the mounting device, the adjusting and monitoring structure is pushed into the incubator to be monitored by utilizing the sliding of the extension block along the sliding rod on the rotating block, and culture solution does not adhere to the surface of the adjusting structure replaced by the system, so that the monitoring data can not deviate due to the culture solution adhering to the adjusting and monitoring structure during monitoring.

Description

Biological flora cultivates monitoring system

Technical Field

The invention relates to the technical field of biological detection, in particular to a biological flora culture monitoring system.

Background

The biological flora refers to a group which is visible to the naked eye and formed by a large amount of fungi or bacteria, the microbial population which mainly lives on each part of healthy animals, has large quantity and stable variety and can generally play a beneficial role is called normal flora, and the biological flora culture adopts a biological flora culture monitoring system to carry out orthogonal comparison of flora culture and is used for researching the influence of a certain factor on the growth of the dominant flora so as to screen the dominant flora;

biological fungus crowd cultivates monitoring system changes the pH value of culture solution through adding the PH reagent for observe the incubator environment to the influence of biological fungus crowd, change the pH value of culture solution after, need stretch into the culture solution through the PH monitoring post of system and carry out the pH value monitoring, the monitoring post monitoring of system finishes the back, its surface adheres to the culture solution easily, and when having the monitoring post monitoring of culture solution again, can make the data analysis of monitoring produce the deviation.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a biological flora culture monitoring system structurally comprises an operation block, an operation box, a closed door, an oxygen generation block and a cover body, wherein the operation block is installed on the operation box, the operation box is movably connected with the operation block, the closed door is installed on the operation box, the operation box is in clearance fit with the closed door, the oxygen generation block is installed on the operation box, the operation box is connected with the oxygen generation block, the cover body is installed on the operation box, and the operation box is embedded with the cover body;

the operation box is provided with an operator, a liquid inlet groove, a box body, a sensing block, a scale mark, a heating block, an incubator and a runner pipe, wherein the liquid inlet groove is installed on the box body, the box body is connected with the liquid inlet groove, the incubator is arranged in the box body and is movably connected with the box body, the heating block is arranged on the incubator and movably clamped with the incubator, the sensing block is arranged in the incubator and is connected with the incubator, the operator is installed on the incubator and is connected with the operator, the scale mark is arranged at the central position of the box body and is movably connected with the box body, the runner pipe is arranged in the box body, the box body is movably connected with the runner pipe, and a hollow opening is arranged at the central position of a connecting plate of the incubator.

As a further optimization of the technical scheme, the manipulator is provided with a stirring block, a shell, a regulator, a rotating shaft, a stirring shaft and a processor, wherein the stirring block is installed on the stirring shaft, the stirring shaft is movably connected with the stirring block, the processor is arranged on the shell, the shell is connected with the processor, the regulator is arranged on the shell, the regulator is in clearance fit with the shell, the rotating shaft is installed at the outer edge of the regulator, the rotating shaft is embedded with the regulator, a hollow opening is formed in the center of the shell, and a rotating notch is formed in the rotating shaft.

As a further optimization of the technical scheme, the stirring shaft is a circular connecting block, the stirring shaft is provided with the circular connecting block, the shell is provided with a circular sliding groove, the circular connecting block of the stirring shaft is embedded on the circular sliding groove of the shell, the stirring block is provided with four connecting plates, the stirring block is connected on the circular connecting block of the stirring shaft, the stirring block is provided with a connecting column, the connecting column of the stirring block is perpendicular to the connecting plates of the stirring block, the other end of the connecting column of the stirring block is connected with a composition board, and the composition board of the stirring block is of a cross structure.

As a further optimization of the technical scheme, the regulator is provided with an assembling groove, a rotating block, an adjusting block, an installer, an adjusting plate, a moving block, a moving shaft and an extending block, the adjusting plate is provided with the assembling groove, the assembling groove is movably connected with the adjusting plate, the moving shaft is provided with the moving block, the moving block is slidably connected with the moving shaft, the rotating block is provided with the extending block, the extending block is movably connected with the rotating block, the adjusting block is arranged at the center of the adjusting plate and is in clearance fit with the adjusting plate, the installer is arranged on the extending block, the extending block is connected with the installer, the adjusting block is movably connected with the adjusting plate through the moving shaft, the adjusting plate is provided with a monitoring column, the moving shaft is arranged at the top of the moving block, a moving cavity is arranged inside the moving block, and a moving block is arranged inside the moving cavity of the moving block, the movable cavity of the movable block is connected with the movable block in a sliding mode, a long shaft connecting block is arranged on the movable block of the movable block and is movably connected with the long shaft connecting block through a connecting shaft, a movable ball is arranged on the long shaft connecting block of the movable block, rubber wires are filled in the movable ball of the movable block, a notch matched with the movable block of the movable block in structure is arranged on the assembling groove, a long shaft groove is arranged inside the assembling groove, an arc-shaped notch is formed in the long shaft groove of the assembling groove, the diameter of the notch of the arc-shaped notch of the assembling groove is smaller than that of the movable ball of the movable block, a buckle notch matched with the buckle structure of the installer is formed in the adjusting plate, and the rotating block is embedded on the rotating notch of the rotating shaft through a sliding block.

As a further optimization of the technical scheme, the adjusting plate is a circular connecting plate, a circular hollow-out opening is formed in the adjusting plate, an arc-shaped connecting block is arranged on the extending block, an arc-shaped notch is formed in the adjusting plate towards one side of the extending block, an arc-shaped connecting shaft is arranged on the extending block, a hollow-out opening is formed in the arc-shaped connecting shaft of the extending block, a protruding slider is arranged on the hollow-out opening of the arc-shaped shaft of the extending block, a connecting rod is arranged on the rotating block, the arc-shaped shaft of the extending block penetrates through the connecting rod of the rotating block, a sliding groove is formed in the connecting rod of the rotating block, and the slider on the hollow-out opening of the extending block is connected with the connecting rod of the rotating block in a sliding mode.

As a further optimization of the technical scheme, the mounter is provided with a mounting block, a turning block, a fitting block, a mounting shaft, a mounting cavity and an offset shaft, wherein the mounting block is mounted inside the mounting cavity, the mounting cavity is embedded with the mounting block, the mounting cavity is internally provided with the offset shaft, the offset shaft is in sliding connection with the mounting cavity, the mounting shaft is provided with the turning block, the turning block is connected with the mounting shaft, the mounting shaft is provided with the fitting block, the fitting block is movably clamped with the mounting shaft, the fitting block and the turning block are both movably connected with the mounting shaft through a movable shaft, the fitting block is provided with a cylindrical connecting block, the cylindrical connecting block of the fitting block is provided with a disc connecting block, the disc connecting block of the fitting block is movably connected with the cylindrical connecting block of the fitting block through a movable shaft, and the outer edge of the disc connecting block of the fitting block is provided with an L-shaped connecting shaft, the turnover block is provided with a circular connecting plate, the circular connecting plate of the turnover block is provided with a buckle notch matched with the disc structure of the laminating block, and the mounting cavity is movably connected with the mounting shaft through a connecting shaft.

As a further optimization of this technical scheme, the installation piece is the circular arc connecting plate, the both sides of installation piece all are equipped with the arc connection chamber, the inside arc connecting axle that is equipped with of installation piece connection chamber, the connection chamber and the connecting axle sliding connection of installation piece, the other end of installation piece is equipped with the spliced pole, the skew axle is equipped with two movable rods, two movable rods of skew axle pass through the spliced pole swing joint of connecting axle with the installation piece, the other end of installation chamber is equipped with the slide rail, the other end of skew axle movable rod passes through the movable block gomphosis on the slide rail of installation chamber, be equipped with the removal recess on the installation chamber, the spliced pole gomphosis of installation piece is on the removal recess of installation chamber.

As a further optimization of the technical scheme, the processor is provided with a displacement block, a processing shaft, a displacement shaft, a processing column and a clamping cover, wherein the displacement block is arranged on the displacement shaft, the displacement shaft is connected with the displacement block in a sliding manner, the clamping cover is arranged on the displacement block and is in clearance fit with the displacement block, the processing column is arranged on both sides of the displacement block and is connected with the displacement block, the processing shaft is arranged inside the displacement block and is in clearance fit with the processing shaft, the displacement block is provided with a sliding shaft, the sliding shaft of the displacement block is embedded on the displacement shaft, the processing column is movably connected with the displacement block through a movable shaft, the processing column is provided with a long-shaft-shaped notch, the processing shaft is provided with a raised block which is matched with the long-shaft-shaped notch structure, the processing shaft is a hollow movable shaft, the processing shaft body is provided with a circular notch, the displacement block is provided with a connecting cavity, the connecting cavity of the displacement block is provided with two arc-shaped connecting pieces, the buckle cover is of an arc-shaped structure, the displacement block and the buckle cover are respectively provided with a threaded connecting groove, the buckle cover is provided with a cylindrical protruding block towards one end of the processing shaft, and the diameter of the cylindrical protruding block of the buckle cover is identical to the diameter of the circular groove opening of the processing shaft.

Advantageous effects

Compared with the prior art, the biological flora culture monitoring system has the following advantages:

1. after the pH of the culture sample liquid is monitored for one time, the adjustment monitoring structure after monitoring is replaced by the adjustment monitoring structure which is not monitored through the assembly connection structure of the installer, the adjustment monitoring structure is pushed into the incubator to be monitored by utilizing the sliding of the extension block along the sliding rod on the rotating block, and the culture liquid does not adhere to the surface of the adjustment structure replaced by the system, so that the monitoring data can not deviate due to the culture liquid adhering to the adjustment monitoring structure during monitoring.

2. According to the invention, a wiping structure can be assembled in the connecting cavity of the displacement block, after the monitoring structure of the system is monitored, the adjusting and monitoring structure is moved to the shell, the displacement block is adjusted again, the displacement block is attached to the monitoring column on the adjusting block, and the culture solution adhered to the monitoring column of the adjusting block is wiped off by using the wiping body assembled by the displacement block, so that the data deviation caused by the fact that the culture solution is adhered to the monitoring column during monitoring again is prevented.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic diagram of the overall structure of a system for monitoring and culturing biological flora according to the present invention.

Fig. 2 is a schematic structural diagram of the operation box of the invention.

Fig. 3 is a schematic structural diagram of the manipulator of the present invention.

Fig. 4 is a schematic view of the regulator of the present invention.

Fig. 5 is a schematic diagram of the mounter structure of the present invention.

FIG. 6 is a diagram of a processor according to the present invention.

In the figure: the device comprises an operation block 1, an operation box 2, a closing door 3, an oxygen generation block 4, a cover 5, an operator 2a, a liquid inlet groove 2b, a box body 2c, a sensing block 2d, a scale mark 2e, a heating block 2f, an incubator 2g, a circulating pipe 2h, a stirring block a1, a shell a2, a regulator a3, a rotating shaft a4, a stirring shaft a5, a processor a6, an assembly groove a31, a rotating block a32, a regulating block a33, an installer a34, a regulating plate a35, a moving block a36, a moving shaft a37, an extending block a38, an installation block 341, an overturning block 342, a fitting block 343, an installation shaft 344, an installation cavity 345, an offset shaft 346, a displacement block a61, a treatment shaft a62, a displacement shaft a63, a treatment column 64 and a 65.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

Referring to fig. 1-5, a biological flora culture monitoring system structurally comprises an operation block 1, an operation box 2, a closing door 3, an oxygen generation block 4 and a cover body 5, wherein the operation block 1 is installed on the operation box 2, the operation box 2 is movably connected with the operation block 1, the closing door 3 is installed on the operation box 2, the operation box 2 is in clearance fit with the closing door 3, the oxygen generation block 4 is installed on the operation box 2, the operation box 2 is connected with the oxygen generation block 4, the cover body 5 is installed on the operation box 2, and the operation box 2 is embedded with the cover body 5;

the operation box 2 is provided with an operator 2a, a liquid inlet groove 2b, a box body 2c, a sensing block 2d, a scale mark 2e, a heating block 2f, an incubator 2g and a circulating pipe 2h, wherein the liquid inlet groove 2b is arranged on the box body 2c, the box body 2c is connected with the liquid inlet groove 2b, the incubator 2g is arranged in the box body 2c, the incubator 2g is movably connected with the box body 2c, the heating block 2f is arranged on the incubator 2g, the heating block 2f is movably clamped with the incubator 2g, the sensing block 2d is arranged in the incubator 2g, the sensing block 2d is connected with the incubator 2g, the operator 2a is arranged on the incubator 2g, the incubator 2g is connected with the operator 2a, the scale mark 2e is arranged at the central position of the box body 2c, and the scale mark 2e is movably connected with the box body 2c, the flow pipe 2h is arranged inside the box body 2c, the box body 2c is movably connected with the flow pipe 2h, and a hollow-out opening is formed in the center of a connecting plate of the incubator 2g, so that culture monitoring of flora is realized.

The manipulator 2a is provided with a stirring block a1, a housing a2, a regulator a3, a rotating shaft a4, a stirring shaft a5 and a processor a6, the stirring block a1 is mounted on the stirring shaft a5, the stirring shaft a5 is movably connected with the stirring block a1, the processor a6 is arranged on the housing a2, the housing a2 is connected with the processor a6, the housing a2 is provided with the regulator a3, the regulator a3 is in clearance fit with the housing a2, the rotating shaft a4 is mounted on the outer edge of the regulator a3, the rotating shaft a4 is embedded with the regulator a3, a hollowed-out hole is formed in the center of the housing a2, and a rotating notch is formed in the rotating shaft a4, so that the assembly adjustment of the monitoring structure is realized.

(mixing) shaft a5 is the ring connecting block, be equipped with the ring connecting block on (mixing) shaft a5, be equipped with the ring spout on casing a2, the ring connecting block gomphosis of (mixing) shaft a5 is on casing a 2's ring spout, stirring piece a1 is equipped with four connecting plates, stirring piece a1 is connected on (mixing) shaft a 5's ring connecting block, be equipped with the spliced pole on stirring piece a1, stirring piece a 1's spliced pole and stirring piece a 1's connecting plate mutually perpendicular, the other end of stirring piece a1 spliced pole is connected with the compoboard, the compoboard of stirring piece a1 is the cross structure, realizes stirring structure's rotation stirring.

The regulator a is provided with an assembling groove a, a rotating block a, an adjusting block a, an installer a, an adjusting plate a, a moving block a, a moving shaft a and an extending block a, the adjusting plate a is provided with the assembling groove a, the assembling groove a is movably connected with the adjusting plate a, the moving shaft a is provided with the moving block a, the moving block a is slidably connected with the moving shaft a, the rotating block a is provided with the extending block a, the extending block a is movably connected with the rotating block a, the center position of the adjusting plate a is provided with the adjusting block a, the adjusting block a is in clearance fit with the adjusting plate a, the installer a is arranged on the extending block a, the extending block a is connected with the installer a, the adjusting block a is movably connected with the adjusting plate a through the moving shaft, the adjusting plate a is provided with a monitoring column, the moving shaft a is arranged at the top of the moving block a, and a movable cavity is arranged inside the moving block a, a movable block is arranged in a movable cavity of the movable block a36, the movable cavity of the movable block a36 is connected with the movable block in a sliding manner, a long shaft connecting block is arranged on the movable block of the movable block a36, the movable block is movably connected with the long shaft connecting block through a connecting shaft, a movable ball is arranged on the long shaft connecting block of the movable block a36, rubber wires are filled in the movable balls of the movable block a36, a notch matched with the movable block a36 is arranged on the assembly groove a31, a long shaft groove is arranged in the assembly groove a31, an arc notch is arranged on the long shaft groove of the assembly groove a31, the gap diameter of the arc notch of the assembly groove a31 is smaller than the diameter of the movable ball of the movable block a36, the adjusting plate a35 is provided with a buckle notch matched with the buckle structure of the mounting device a34, the rotating block a32 is embedded on the rotating notch of the rotating shaft a4 through a slide block, and the monitoring structure is replaced through an adjusting structure.

The adjustable monitoring structure is characterized in that the adjusting plate a35 is a circular connecting plate, a circular hollowed-out opening is formed in the adjusting plate a35, an arc connecting block is arranged on the extending block a38, an arc notch is formed in one side, facing the extending block a38, of the adjusting plate a35, an arc connecting shaft is arranged on the extending block a38, a hollowed-out opening is formed in the arc connecting shaft of the extending block a38, a protruding sliding block is arranged on the hollowed-out opening of the arc shaft of the extending block a38, a connecting rod is arranged on the rotating block a32, the arc shaft of the extending block a38 penetrates through the connecting rod of the rotating block a32, a sliding groove is formed in the connecting rod of the rotating block a32, the sliding block on the hollowed-out opening of the extending block a38 is connected with the connecting rod of the rotating block a32 in a sliding mode, and assembly of the monitoring structure is achieved.

The mounter a34 is provided with a mounting block 341, a turning block 342, an attaching block 343, a mounting shaft 344, a mounting cavity 345 and an offset shaft 346, the mounting block 341 is mounted inside the mounting cavity 345, the mounting cavity 345 is embedded with the mounting block 341, the offset shaft 346 is arranged inside the mounting cavity 345, the offset shaft 346 is slidably connected with the mounting cavity 345, the mounting shaft 344 is provided with the turning block 342, the turning block 342 is connected with the mounting shaft 344, the mounting shaft 344 is provided with the attaching block 343, the attaching block 343 is movably clamped with the mounting shaft 344, the attaching block 343 and the turning block 342 are both movably connected with the mounting shaft 344 through a movable shaft, the attaching block 343 is provided with a cylindrical connecting block, the cylindrical connecting block of the attaching block 343 is provided with a disc connecting block, the disc connecting block of the attaching block 343 is movably connected with the cylindrical connecting block of the attaching block 343 through a movable shaft, the outer edge of the disc connecting block of the fitting block 343 is provided with an L-shaped connecting shaft, the turning block 342 is provided with a circular connecting plate, the circular connecting plate of the turning block 342 is provided with a buckle notch matched with the disc structure of the fitting block 343, the mounting cavity 345 is movably connected with the mounting shaft 344 through the connecting shaft, and the monitoring structure replacement is realized by extending the buckle structure.

The mounting block 341 is an arc connecting plate, arc connecting cavities are arranged on two sides of the mounting block 341, an arc connecting shaft is arranged in the mounting block 341 connecting cavity, the connecting cavity of the mounting block 341 is connected with the connecting shaft in a sliding manner, a connecting column is arranged at the other end of the mounting block 341, the offset shaft 346 is provided with two movable rods, the two movable rods of the offset shaft 346 are movably connected with the connecting column of the mounting block 341 through the connecting shaft, a sliding rail is arranged at the other end of the mounting cavity 345, the other end of the offset shaft 346 is embedded on the sliding rail of the mounting cavity 345 through the movable block, a moving groove is arranged on the mounting cavity 345, the connecting column of the mounting block 341 is embedded on the moving groove of the mounting cavity 345, and the mounting of the monitoring structure is realized through the buckle of the mounting structure.

When monitoring the pH value in the incubator 2g, the power supply is started, the mounting cavity 345 rotates along the movable shaft connected with the mounting shaft 344, the opening of the assembly end of the extension block a38 is opened, the moving block a36 slides along the moving shaft a37, the adjusting plate a35 is pushed to the contact end of the extension block a38, the arc-shaped notch of the adjusting plate a35 is clamped with the arc-shaped connecting block of the extension block a38, the mounting cavity 345 rotates along the mounting shaft 344 again, the mounting cavity 345 is contacted with the adjusting plate a35, the movable rod of the offset shaft 346 slides on the slide rail in the mounting cavity 345, the mounting block 341 is pushed out of the mounting cavity 345 and is jointed with the clamping notch of the adjusting plate a35, the connecting shaft of the mounting block 341 extends along the connecting cavity in a sliding manner and is further clamped on the clamping notch of the adjusting plate a35, the jointing block 343 rotates along the movable shaft connected with the mounting shaft 344, the cylindrical connecting block 343 on the jointing block 343 penetrates through the hollow opening of the adjusting plate a35, the disc structure on the attaching block 343 is contacted with the turning block 342, the disc structure rotates through the movable shaft on the connecting block of the attaching block 343 and is buckled with the turning block 342, so that the connection between the extending block a38 and the adjusting plate a35 is firmer, the moving block a36 slides along the moving shaft a37, the long shaft connecting block on the moving block a36 is separated from the groove of the assembling groove a31, the long shaft connecting block is rotated through the movable shaft on the moving block a36, the long shaft connecting block faces the notch of the assembling groove a31, the moving block a36 is moved, the adjusting plate a35 is separated from the moving block a36, the arc-shaped connecting block of the extending block a38 slides along the sliding rod on the rotating block a32, the monitoring column on the adjusting block a33 is pushed to the incubator 2g for monitoring, the monitoring column on the adjusting block a33 penetrates through the stirring shaft a5, the stirring shaft a5 rotates along the circular ring slideway with the housing a2, the liquid in the incubator 2g is stirred, the PH reagent and the culture solution are mixed more uniformly, when the monitoring structure is replaced, the connection between the adjustment monitoring structure and a mounting device a34 is firstly released, the monitored adjusting block a33 is connected with a moving block a36 through an assembling groove a31 on an adjusting plate a35, the monitored adjusting plate a35 is moved out of the mounting device a34, a slide block of a rotating block a32 rotates along a rotating groove of a rotating shaft a4, the assembling direction of the mounting device a34 is changed, and replacement and assembly of the system are carried out.

Example two

Referring to fig. 1-6, a biological flora culture monitoring system structurally comprises an operation block 1, an operation box 2, a closing door 3, an oxygen generation block 4 and a cover body 5, wherein the operation block 1 is installed on the operation box 2, the operation box 2 is movably connected with the operation block 1, the closing door 3 is installed on the operation box 2, the operation box 2 is in clearance fit with the closing door 3, the oxygen generation block 4 is installed on the operation box 2, the operation box 2 is connected with the oxygen generation block 4, the cover body 5 is installed on the operation box 2, and the operation box 2 is embedded with the cover body 5;

The processor a6 is provided with a displacement block a61, a processing shaft a62, a displacement shaft a63, a processing column a64 and a buckle cover a65, the displacement shaft a63 is provided with a displacement block a61, the displacement shaft a63 is slidably connected with the displacement block a61, the displacement block a61 is provided with a buckle cover a65, the buckle cover a65 is in clearance fit with the displacement block a61, both sides of the displacement block a61 are provided with processing columns a64, the processing column a64 is connected with the displacement block a61, the processing shaft a62 is arranged inside the displacement block a61, the displacement block a61 is in clearance fit with the processing shaft a62, the displacement block a61 is provided with a sliding shaft, the sliding shaft of the displacement block a61 is embedded on the displacement shaft a63, the processing column a64 is connected with the displacement block a61 through a movable shaft, the processing column a64 is provided with a notch 62, the processing shaft 64 a is provided with a hollowed-shaped processing column protrusion shaft 62, be equipped with the ring notch on handling axle a62 cylinder, be equipped with the connection chamber on the displacement piece a61, be equipped with two arc connection pieces on the connection chamber of displacement piece a61, buckle lid a65 is the arc structure, all be equipped with the thread connection groove on displacement piece a61 and the buckle lid a65, buckle lid a65 is equipped with the protruding piece of cylinder towards the one end of handling axle a62, the diameter of the protruding piece of buckle lid a65 cylinder is identical with the ring notch diameter of handling axle a62, cleans the monitoring structure through the connection equipment of handling the structure, increases the monitoring number of times of monitoring structure.

The processor a6 is installed on the basis of the first embodiment, when the wiping structure is assembled, a connecting weaving sheet with a sponge layer can be selected, the processing shaft a62 is sleeved into the processing column a64 through a convex block, the length of the corresponding connecting weaving sheet is selected according to the diameter between the processing shaft a62 and the processing shaft a62, the connecting weaving sheet is connected into a ring structure and is sleeved on the processing shaft a62 in a ring mode, the connecting weaving sheet is contacted with an arc connecting sheet in a connecting cavity of a displacement block a61, the arc connecting sheet supports the connecting weaving sheet, a snap cover a65 is closed, the snap cover a65 is connected with the displacement block a61 through a bolt, a cylindrical convex block on the snap cover a65 is embedded into a ring notch of the processing shaft a62 to prevent the processing shaft a62 from falling off, when the monitoring structure which is monitored to be attached is moved to a2, the displacement block a61 slides along the displacement shaft a63, the monitoring column 33 on the assembled connecting weaving sheet of the displacement block a61 and the monitoring block a33, regulating block a33 rotates along the loose axle with regulating plate a35, constantly replace the contact surface of being connected the weaving piece of monitoring post and displacement piece a61 equipment, wipe the culture solution on the monitoring post through the sponge layer on connecting the weaving piece, the number of times of using repeatedly of system regulation monitoring structure has been increased, and handle post a64 and rotate along the loose axle of being connected with displacement piece a61, the weaving piece is connected in the tractive, the contact surface of weaving piece is connected in the conversion, it is inside to have the commentaries on classics of culture solution to move piece a61 to wipe, and when the replacement weaving piece, only need extract processing axle a62, alright take out the weaving piece.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A biological flora culture monitoring system is characterized in that: the oxygen generating device structurally comprises an operation block (1), an operation box (2), a closing door (3), an oxygen generating block (4) and a cover body (5), wherein the operation block (1) is installed on the operation box (2), the operation box (2) is in clearance fit with the closing door (3), the oxygen generating block (4) is installed on the operation box (2), and the operation box (2) is embedded with the cover body (5);

operation box (2) are equipped with operation ware (2a), feed liquor groove (2b), box (2c), sensing block (2d), scale mark (2e), heating block (2f), incubator (2g), runner pipe (2h), install on box (2c) feed liquor groove (2b), incubator (2g) and box (2c) swing joint, be equipped with heating block (2f) on incubator (2g), sensing block (2d) are connected with incubator (2g), operation ware (2a) are installed on incubator (2g), scale mark (2e) and box (2c) swing joint, runner pipe (2h) are established inside box (2 c).

2. The system for monitoring the cultivation of biological flora according to claim 1, wherein: the manipulator (2a) is provided with a stirring block (a1), a shell (a2), a regulator (a3), a rotating shaft (a4), a stirring shaft (a5) and a processor (a6), wherein the stirring shaft (a5) is movably connected with the stirring block (a1), the processor (a6) is arranged on the shell (a2), the regulator (a3) is in clearance fit with the shell (a2), and the rotating shaft (a4) is arranged at the outer edge of the regulator (a 3).

3. The system for monitoring the culture of biological flora according to claim 2, wherein: the stirring shaft (a5) is a circular connecting block, the stirring shaft (a5) is provided with the circular connecting block, and the shell (a2) is provided with a circular sliding groove.

4. The system for monitoring the culture of biological flora according to claim 2, wherein: the regulator (a3) is provided with an assembling groove (a31), a rotating block (a32), a regulating block (a33), a mounting device (a34), a regulating plate (a35), a moving block (a36), a moving shaft (a37) and an extending block (a38), the regulating plate (a35) is provided with the assembling groove (a31), the moving shaft (a37) is provided with the moving block (a36), the extending block (a38) is movably connected with the rotating block (a32), the regulating block (a33) is arranged at the center of the regulating plate (a35), and the extending block (a38) is connected with the mounting device (a 34).

5. The system for monitoring the cultivation of biological flora according to claim 4, wherein: the adjusting plate (a35) is a circular connecting plate, and a circular hollow is arranged on the adjusting plate (a 35).

6. The system for monitoring the cultivation of biological flora according to claim 4, wherein: the mounting device (a34) is provided with a mounting block (341), a turning block (342), an attaching block (343), a mounting shaft (344), a mounting cavity (345) and an offset shaft (346), the mounting block (341) is mounted in the mounting cavity (345), the offset shaft (346) is slidably connected with the mounting cavity (345), the mounting shaft (344) is provided with the turning block (342), and the attaching block (343) is movably clamped with the mounting shaft (344).

7. The system for monitoring the cultivation of biological flora according to claim 6, wherein: the mounting block (341) is an arc connecting plate, and arc connecting cavities are arranged on two sides of the mounting block (341).

8. The system for monitoring the culture of biological flora according to claim 2, wherein: the processor (a6) is provided with a displacement block (a61), a processing shaft (a62), a displacement shaft (a63), a processing column (a64) and a buckle cover (a65), the displacement shaft (a63) is provided with the displacement block (a61), the buckle cover (a65) is in clearance fit with the displacement block (a61), the two sides of the displacement block (a61) are provided with the processing column (a64), and the displacement block (a61) is in clearance fit with the processing shaft (a 62).