CN213162411U - Organic solid waste biochemical treatment machine - Google Patents

Abstract

The application discloses an organic solid waste biochemical treatment machine, which relates to the technical field of microorganism culture and comprises a machine body, wherein a stirring tank is arranged on the machine body, a stirring device and a detection device are also arranged on the machine body, the stirring device comprises a stirring shaft which is rotatably arranged in the stirring tank, and the detection device comprises a sensor which is arranged in the stirring tank; and a temperature adjusting device and a humidity adjusting device are arranged at the stirring tank. The user puts into the stirred tank with materials such as culture medium, bacterial, the agitating unit stirring, mixed material to adjust control culture temperature and cultivation humidity through temperature regulation apparatus and humidity control device, in order to cultivate corresponding microbial strains, biological product etc.. Agitating unit, detection device, temperature regulation apparatus and humidity control device are integrated in the organism, on the basis that satisfies stirring, detection and temperature, humidity control, have improved the compactness of each component part installation, have reduced the occupation to laboratory space.

Description

Organic solid waste biochemical treatment machine

Technical Field

The application relates to the technical field of microbial culture, in particular to an organic solid waste biochemical treatment machine.

Background

At present, when microbial strains, biological products (preparations), medicaments or other mixed materials with temperature and humidity requirements are cultured in a laboratory, a bioreactor for laboratory scientific research is generally needed.

With respect to the related art in the above, the inventors consider that there is a drawback that the equipment occupies a large laboratory space.

SUMMERY OF THE UTILITY MODEL

In order to reduce the occupation of the laboratory space by equipment, the application provides an organic solid waste biochemical treatment machine.

The application provides an organic solid waste biochemical treatment machine adopts following technical scheme:

an organic solid waste biochemical treatment machine comprises a machine body, wherein a stirring tank is arranged on the machine body, a stirring device for stirring materials in the stirring tank and a detection device for detecting the temperature and humidity of the materials in the stirring tank are also arranged on the machine body, the stirring device comprises a stirring shaft which is rotatably arranged in the stirring tank, and the detection device comprises a sensor arranged in the stirring tank; and the stirring tank is provided with a temperature adjusting device and a humidity adjusting device which are linked with the detection device, the temperature adjusting device comprises a heating element arranged on the stirring tank, and the humidity adjusting device comprises a spray head arranged in the stirring tank and connected with a water source.

Through adopting above-mentioned technical scheme, the user puts into materials such as culture medium, bacterial to the stirred tank in, agitating unit stirring, mixed material to adjust control culture temperature and cultivation humidity through temperature regulation apparatus and humidity control device, in order to cultivate and obtain corresponding microbial strains, biological product etc.. Agitating unit, detection device, temperature regulation apparatus and humidity control device are integrated in the organism, on satisfying stirring, measuring and temperature, humidity control's basis, have improved the compactness of each component part installation, need not arrange auxiliary device such as detection outside the organism, have reduced the occupation to laboratory space, and the laboratory staff of being convenient for puts other experimental facilities, carries out the experiment operation.

Preferably, the nozzle is connected with a first water pipe, a first valve body for controlling the on-off of the pipeline is arranged on the first water pipe, and the first water pipe is communicated with a water source outside the machine body.

Through adopting above-mentioned technical scheme, first water pipe and the outside water source direct intercommunication of organism utilize the water pressure of water source self to deliver to the shower nozzle with the experimental water to utilize the first valve body on the first water pipe to realize the purpose of control pipeline break-make. The mode of external water supply is adopted, so that the overall cost of the equipment is reduced, the occupation of the internal space of the machine body is controlled, and the optimization of the internal space of the machine body is facilitated.

Preferably, the nozzle is connected with a second water pipe, a second valve body for controlling the on-off of the pipeline is arranged on the second water pipe, and a water tank and a water pump which are communicated with the second water pipe are arranged in the machine body.

By adopting the technical scheme, the second water pipe is communicated with the water tank and the water pump which are arranged on the machine body, the water tank and the water pump which are arranged on the machine body are used for pumping the experimental water in the water tank by utilizing the water pump carried by the machine body and sending the experimental water to the spray head, and no external water source is needed, namely, no pipeline is needed for connecting the machine body and the external water source, so that the cleanness of the laboratory environment is favorably; meanwhile, the experimenter can arrange the organic solid waste biochemical treatment machine at a proper position in the laboratory according to actual needs, and the organic solid waste biochemical treatment machine has better use flexibility.

Preferably, a water outlet pipe is arranged at the position of the stirring groove on the machine body, the water outlet pipe is communicated with a water source, and the spray head is detachably connected with the water outlet pipe.

Through adopting above-mentioned technical scheme, corresponding shower nozzle can be changed according to actual demand to experimenter or producer to be applicable to different experimental environment.

Preferably, the sensor includes temperature sensor and humidity transducer, temperature sensor sets up in the tank bottom of stirred tank, and is a plurality of humidity transducer interval arrangement sets up in the tank bottom central point department of stirred tank.

Through adopting above-mentioned technical scheme, adopt the interior ambient humidity of a plurality of humidity transducer interval arrangements's arrangement mode detection stirred tank, can utilize difference analysis's mode, improve the accuracy that interior ambient humidity detected.

Preferably, the temperature sensor is arranged at the side wall of the stirring tank and detects the temperature of the material in the stirring tank, and the humidity sensor is arranged at the side wall of the stirring tank and detects the humidity of the air in the stirring tank.

Through adopting above-mentioned technical scheme, change temperature sensor and humidity transducer's mounted position and detection mode, adopt the scheme that detects the air humidity in the stirred tank to replace original scheme that detects humidity in the material of stirred tank promptly to reach the purpose that improves humidity and detect the accuracy.

Preferably, a controller for acquiring sensor data and adjusting and controlling the heating element and the spray head is arranged in the machine body, and a touch screen matched with the controller is arranged on the machine body.

By adopting the technical scheme, experimenters can finish humidity adjustment operation and temperature adjustment operation by utilizing the touch screen, and the operation has better operability and man-machine interaction.

Preferably, the controller is in signal connection with a remote control device.

By adopting the technical scheme, the experimenter can complete the humidity adjustment operation and the temperature adjustment operation by utilizing the remote control equipment, and the man-machine separation type control adjustment mode is realized.

Preferably, the machine body is provided with an exhaust device for pumping out gas generated in the stirring tank, the exhaust device comprises an exhaust fan and an air treatment assembly which are communicated, the stirring tank is provided with an air inlet, and the machine body is provided with an air outlet; and the exhaust fan extracts the gas in the stirring tank through the air inlet, and the gas is discharged through the air outlet after being processed by the air processing assembly.

Through adopting above-mentioned technical scheme, exhaust apparatus's air exhauster takes the produced gas of the inherent culture in-process of stirred tank out to send into air treatment component and handle the back, discharge organism via the air outlet again, with the air cleanliness factor that keeps the laboratory environment, realized simultaneously that the new trend takes a breath, for the purpose of the bacterial cultivation supplementary nutrient in the stirred tank.

Preferably, a filter screen is arranged at the air inlet.

By adopting the technical scheme, the filter screen plays a role in preventing materials in the stirring tank from entering the pipeline along with the air flow.

Preferably, the air intake department is provided with the installing frame, just the filter screen can be dismantled with the installing frame and be connected.

By adopting the technical scheme, the filter screen can be replaced or cleaned regularly by experimenters, and the practicability is better.

Preferably, the air treatment component comprises an ultraviolet sterilization component, a photocatalyst treatment component and an activated carbon treatment component which are sequentially communicated.

By adopting the technical scheme, the ultraviolet sterilization part plays a role in sterilization, the photocatalyst treatment part further sterilizes germs and realizes harmless treatment, and the active carbon treatment part mainly plays a role in adsorbing solid particles.

Preferably, the ultraviolet sterilization part comprises an ultraviolet sterilization pipe communicated with the air inlet and an ultraviolet irradiation lamp arranged in the ultraviolet sterilization pipe, and a filter sleeve used for filtering dust particles is arranged in the ultraviolet sterilization pipe.

By adopting the technical scheme, the ultraviolet irradiation lamp plays a role in ultraviolet sterilization, and the filter sleeve plays a role in preliminarily filtering and adsorbing solid particles; meanwhile, the filter screen, the filter sleeve and the active carbon treatment part are matched to form a multi-stage type filtering and adsorbing treatment structure, so that the treatment effect of solid dust particles is improved.

Preferably, the filter sleeve is sleeved outside the ultraviolet irradiation lamp.

By adopting the technical scheme, the installation mode that the filter sleeve is sleeved outside the ultraviolet irradiation lamp is adopted, so that the improvement is facilitated.

In summary, the present application includes at least one of the following beneficial technical effects:

1. agitating unit, detection device, temperature regulation apparatus and humidity control device are integrated in the organism, on satisfying stirring, measuring and temperature, humidity control's basis, have improved the compactness of each component part installation, have reduced occuping to laboratory space, and the laboratory technician of being convenient for puts other experimental facilities, carries out experimental operation, has solved the intermediate equipment problem that accurate professional equipment and self-control simple and convenient equipment can't be solved.

2. Experimenters can adjust the temperature and the humidity of stirred tank internal environment according to actual demand to satisfy the demand of different experiments.

3. The exhaust device purifies and treats the pungent gas generated in the stirring tank, and then the pungent gas is discharged to the indoor environment, so that the cleanness of the indoor air of a laboratory is kept, and in the process of pumping out the pungent gas in the stirring tank, the external air can be naturally supplemented into the stirring tank, so that fresh air ventilation is realized, and the purpose of providing nutrients for strain culture is achieved.

4. The stirring adjustment operation and the temperature and humidity adjustment operation are completed in a touch control adjustment or wireless adjustment mode, and automatic control is achieved.

Drawings

FIG. 1 is a schematic diagram of a laboratory research bioreactor in the related art;

FIG. 2 is a schematic structural view of an organic solid waste biochemical treatment machine according to an embodiment of the present application;

FIG. 3 is a schematic view of the inner structure of the agitation tank;

FIG. 4 is a schematic diagram of a control system according to a first embodiment of the present application;

FIG. 5 is a schematic view of the internal structure of the housing;

FIG. 6 is a schematic structural view mainly used for showing a temperature sensor and a humidity sensor in a stirring tank;

FIG. 7 is an enlarged schematic view of portion A of FIG. 6;

FIG. 8 is a schematic view of the overall structure of a humidity control device according to a first embodiment of the present application;

FIG. 9 is a schematic sectional view mainly for showing a temperature adjusting device;

FIG. 10 is an enlarged schematic view of portion B of FIG. 6;

FIG. 11 is a schematic view of the internal structure of the housing primarily to show the exhaust and air treatment assembly;

FIG. 12 is a schematic view of the gas path direction of the embodiment of the present application;

FIG. 13 is a schematic view showing the structure of the ultraviolet sterilizing part;

FIG. 14 is a schematic structural view of a humidity control device according to a second embodiment of the present application;

FIG. 15 is a schematic view of a control system according to a third embodiment of the present application;

fig. 16 is a schematic view of the installation positions of the temperature sensor and the humidity sensor in the fourth embodiment of the present application.

Description of reference numerals: 01. a frame; 02. a reaction vessel; 03. a control platform; 1. a body; 11. a housing; 111. a base; 112. a housing; 113. a framework; 12. a tank shell; 13. a machine cover; 2. a stirring tank; 21. a stirring shaft; 211. a stirring fan blade; 22. a drive member; 23. a transmission assembly; 231. a driving wheel; 232. a driven wheel; 233. a transmission member; 3. a detection device; 31. a temperature sensor; 32. a humidity sensor; 4. a temperature adjustment device; 41. a heating member; 42. a heat-insulating protective cover; 421. heat-insulating rubber; 422. heat insulation cotton; 5. a humidity adjusting device; 51. a water outlet pipe; 52. a spray head; 53. a first valve body; 54. a first water pipe; 55. a water tank; 56. a water pump; 57. a second water pipe; 58. a second valve body; 6. a controller; 61. a power source; 62. a touch screen; 63. a remote control device; 7. an exhaust device; 71. an air inlet; 72. an air outlet; 73. installing a frame; 731. an interface; 74. a filter screen; 75. an air tube; 8. an air handling assembly; 81. an ultraviolet sterilization part; 811. an ultraviolet sterilization tube; 812. an ultraviolet irradiation lamp; 813. a filter sleeve; 82. a photocatalyst treatment member; 83. an activated carbon treatment component; 9. an exhaust fan.

Detailed Description

The present application is described in further detail below with reference to figures 1-15.

In the related art, a laboratory research bioreactor is generally used to complete preparation operations of microbial strains, biological products and the like. Referring to fig. 1, the laboratory research bioreactor comprises a frame 01, a reaction container 02 and a control platform 03 are erected on the frame 01, the control platform 03 obtains internal reaction data through detection of various sensors on the reaction container 02, and adjusts the internal environment of the reaction container 02 according to the reaction data so as to meet the requirement of culture of microbial strains.

The embodiment of the application discloses an organic solid waste biochemical treatment machine.

Example 1

Referring to fig. 2 and 3, the organic solid waste biochemical treatment machine comprises a machine body 1, wherein the machine body 1 comprises a machine shell 11 and a tank shell 12 arranged in the machine shell 11, the machine shell 11 and the tank shell 12 are matched to form a stirring tank 2, a stirring device is arranged in the machine body 1, an experimenter puts materials such as culture media and microbial strains into the stirring tank 2, and the materials can be mixed under the action of the stirring device. Referring to fig. 3 and 4, a detection device 3, a temperature adjusting device 4 and a humidity adjusting device 5 are further installed in the machine body 1, the temperature adjusting device 4 and the humidity adjusting device 5 are used in cooperation with the detection device 3, the detection device 3 is used for detecting the internal environment temperature and the humidity of the stirring tank 2, and an experimenter adjusts the temperature and the humidity in the stirring tank 2 through the temperature adjusting device 4 and the humidity adjusting device 5 according to detection data so as to meet the environment requirements of culturing different microbial strains.

Referring to fig. 3 and 5, the casing 11 includes a base 111 and an outer cover 112 vertically installed on the base 111, the outer cover 112 is a hollow shell structure, and a framework 113 is provided on an inner supporting frame of the outer cover 112 to support and fix the outer cover 112 and the tank shell 12; and one end of the top of the outer cover 112 is hinged with a cover 13, the tank shell 12 is arranged in the outer cover 112 close to the position of the top opening of the outer cover and is matched with the outer cover 112 to form the stirring tank 2, and the cover 13 plays a role in closing or opening the stirring tank 2. When experimenters carry out test experiments, firstly, the stirring tank 2 is opened by turning the cover 13 upwards, materials such as culture medium, microbial strains and the like are put into the stirring tank 2 through the top opening of the outer cover 112, and then the stirring tank 2 is closed again by turning the cover 13 downwards; when the test experiment is completed, the agitation tank 2 is turned upside down again, and the material in the agitation tank 2 is taken out or cleaned through the top opening of the housing 112.

Referring to fig. 3 and 5, the stirring device includes a stirring shaft 21 rotatably installed in the stirring tank 2, and a driving member 22 connected to the stirring shaft 21 and driving the stirring shaft to rotate, a motor may be used as the driving member 22, and an output shaft of the motor and the stirring shaft 21 are connected to a transmission assembly 23, the transmission assembly 23 includes a driving wheel 231 coaxially installed on the output shaft of the motor and a driven wheel 232 coaxially installed at an end of the stirring shaft 21, and the driving wheel 231 and the driven wheel 232 are connected to a transmission member 233; the output shaft of the motor rotates to drive the stirring shaft 21 to rotate through the driving wheel 231, the driven wheel 232 and the transmission member 233. In the above transmission structure, a gear may be used as the driving wheel 231 and the driven wheel 232, a chain may be used as the transmission member 233, or a synchronous wheel may be used in conjunction with a synchronous belt to replace the above transmission structure.

Referring to fig. 3 and 5, the stirring shaft 21 is horizontally and rotatably erected along the length direction of the stirring tank 2, a plurality of stirring blades 211 are uniformly formed on the stirring shaft 21 along the axial direction thereof, both ends of the stirring shaft 21 penetrate through the tank shell 12 and are rotatably matched with the outer cover 112 through bearings, and the joint of the stirring shaft 21 and the outer cover 112 is subjected to end face sealing treatment. In order to improve the overall utilization of the internal space of the housing 1, the driving member 22 is installed in the installation space between the casing 12 and the base 111 and is locked on the base 111, and the transmission member 233 is located in the lateral installation space between the outer cover 112 and the casing 12.

Referring to fig. 6, the detecting device 3 includes a sensor installed at the bottom of the tank 12, and the sensor includes a temperature sensor 31 and a humidity sensor 32, in this embodiment, the temperature sensor 31 and the humidity sensor 32 are both probe type sensors, but other types of sensors can be adopted. The probe type sensor penetrates through the bottom of the tank shell 12 and extends into the stirring tank 2, the sensor and the penetrating position of the tank shell 12 are sealed by glue, and the like, in the embodiment, three groups of humidity sensors 32 are arranged at the center of the bottom of the tank shell 12 at equal intervals, and the detectable range of each group of humidity sensors 32 forms a cylinder which takes the probe as the center, has the diameter of 7cm and the height of 10 cm. Improve the detection range of every humidity transducer 32 of group to directly improve the humidity detection precision of 2 interior materials in the stirred tank, set up multiunit humidity transducer 32 simultaneously, can reject unreasonable detection numerical value or gain the detection average value of humidity through subsequent analysis, indirectly improve the detection precision of humidity.

Referring to fig. 6 and 7, the humidity control device 5 includes a water outlet pipe 51 installed at the top opening position of the stirring tank 2, the position of the water outlet pipe 51 is located above the notch of the stirring tank 2, a water outlet of the water outlet pipe 51 is detachably connected with a spray head 52, and the water spraying direction of the spray head 52 faces the inside of the stirring tank 2. Referring to fig. 7 and 8, a water source outside the machine body 1 is communicated with the water outlet pipe 51 to form a first water pipe 54, the first water pipe 54 is wound and fixed in the machine body 1 and penetrates through the machine body 1, the first water pipe 54 is connected with a first valve body 53 for controlling the on-off state of the first valve body, and the first valve body 53 can be used as an electromagnetic valve, so that the purpose of spraying water into the stirring tank 2 is achieved, and the purpose of adjusting the humidity of the material in the stirring tank 2 is achieved. In this embodiment, a hose is used as the first water pipe 54, and a faucet can be directly used as a water source outside the machine body 1.

Referring to fig. 7, in the present embodiment, the nozzle 52 is connected to the water outlet pipe 51 by a threaded connection, but other installation methods may also be used to detachably connect the nozzle 52 to the water outlet pipe 51, and an experimenter may select a nozzle 52 with a suitable specification to install according to actual requirements, for example, may select to install a shower nozzle 52 or select to install a direct injection nozzle 52.

In this embodiment, the temperature sensor 31 and the humidity sensor 32 are uniformly disposed at the bottom of the tank, but in actual implementation, the sensors may be disposed at the side wall of the tank shell 12 and other positions according to different detection requirements, types of the sensors, and other factors, so as to detect and obtain the temperature and humidity data of the material in the stirring tank 2.

Referring to fig. 9, the temperature adjusting device 4 includes a heating member 41 disposed outside the tank shell 12, and a heat insulation protective cover 42 covering the heating member 41, the heating member 41 may be a metal electric heating element or a non-metal electric heating element, and the heating member 41 may be a metal tubular, ceramic coated, sheet-like or other electric heating element. In this embodiment, the heating element 41 is a substantially U-shaped plate structure, and a resistance wire is integrated therein and then coated on the outer sidewall of the substantially U-shaped tank shell 12. The heat-insulating protective cover 42 may adopt a multi-layer stacked structure, in this embodiment, the heat-insulating protective cover 42 is composed of an inner layer of heat-insulating rubber 421 and an outer layer of heat-insulating cotton 422, and covers the outer side of the heating element 41, and of course, other heat-insulating materials may be adopted to replace the heat-insulating rubber 421 and the heat-insulating cotton 422, so as to achieve the purpose of heat preservation and heat diffusion barrier to the machine body 1.

Referring to fig. 11 and 12, an exhaust device 7 for exhausting the pungent gas generated in the agitation tank 2 is additionally provided in the machine body 1. Exhaust apparatus 7 is including exhaust fan 9 and air processing component 8 of installation on the base 111 of being fixed in organism 1, air processing component 8 is including ultraviolet sterilization part 81, photocatalyst treatment part 82 and active carbon treatment part 83, then exhaust fan 9 takes out the pungent gas that produces in agitator tank 2 through trachea 75 and sends into ultraviolet sterilization part 81, photocatalyst treatment part 82 and active carbon treatment part 83 in proper order and handle, accomplish and discharge to the laboratory environment after the disinfection purification treatment again to keep the cleanliness factor of laboratory ambient air.

Referring to fig. 10 and 11, an air inlet 71 is formed at the opening of the stirring tank 2, an air outlet 72 is formed on the machine body 1, and an air pipe 75 is connected to the air inlet 71, the air outlet 72, and the air processing assembly 8 and the exhaust fan 9 therebetween to communicate the air exhaust pipeline. Both the air inlet 71 and the air outlet 72 are provided with filter screens 74, however, the filter screens 74 at the air inlet 71 need to be detachably connected, and the filter screens 74 at the air outlet 72 can be fixedly connected or detachably connected, because the filter screens 74 at the air inlet 71 need to be cleaned or replaced, and the filter screens 74 at the air outlet 72 are mainly used for blocking sundries in the external environment from entering the air path. The air inlet 71 is fixedly provided with an installation frame 73, an insertion port 731 is formed above the installation frame 73, and the filter screen 74 is vertically inserted into the installation frame 73 through the insertion port 731 in a sliding manner, so that the filter screen 74 and the installation frame 73 can be detachably installed.

Referring to fig. 11 and 13, the ultraviolet sterilizing part 81 includes an ultraviolet sterilizing tube 811 vertically fixed in the machine body 1, and referring to fig. 10, an upper end of the ultraviolet sterilizing tube 811 is communicated with the air inlet 71, a lower end of the ultraviolet sterilizing tube 811 is communicated with the photocatalyst processing part 82, and an ultraviolet radiation lamp 812 is penetratingly fixed in the ultraviolet sterilizing tube 811 along a vertical length direction thereof, and the ultraviolet radiation lamp 812 irradiates gas introduced into the ultraviolet sterilizing tube 811 to perform an ultraviolet sterilizing operation. Referring to fig. 13, a filter sleeve 813 is fixedly installed in the ultraviolet sterilizing tube 811, the filter sleeve 813 may be formed by weaving and sleeving different numbers of metal wire meshes, or may be replaced by a filter element, etc., and the filter sleeve 813 is also extended along the vertical length direction of the ultraviolet sterilizing tube 811 and sleeved outside the ultraviolet radiation lamp 812; after the gas is pumped out and introduced into the ultraviolet sterilization pipe 811, the dust particles contained therein can be adsorbed and collected by the filter sleeve 813, and simultaneously, the function of delaying and uniformly distributing the gas flow is achieved, so that the purpose of improving the ultraviolet sterilization sufficiency is achieved.

The photocatalyst processing part 82 is a box structure fixed on the base 111 and filled with photocatalyst, and the activated carbon processing part 83 is also a box structure fixed on the base 111 and filled with activated carbon.

Referring to fig. 11, a controller 6 and a power supply 61 are installed in the machine body 1, and the controller 6 can be programmed by a PLC program and is used for collecting temperature data and humidity data of the temperature sensor 31 and the humidity sensor 32, and controlling the start and stop of the driving member 22, the adjustment of the rotation speed of the stirring shaft 21, the start and stop of the exhaust fan 9, and the opening and closing of the first valve body 53, so as to realize the automatic control of the stirring operation and the temperature and humidity adjustment operation.

In order to facilitate the experimenter to control, the top surface position department of cover 13 inlays and establishes and installs touch screen 62, and experimenter accessible touch screen 62 accomplishes the regulation operation of stirring operation and temperature humidity control operation.

The implementation principle of the embodiment 1 is as follows: experimenter upset cover 13 is in order to open stirred tank 2, with the culture medium, wait that materials such as the microbial species of cultivateing drop into stirred tank 2 in, reverse upset cover 13 is in order to seal stirred tank 2, then opens agitating unit, and the material in stirring stirred tank 2 is stirred to (mixing) shaft 21, and (mixing) shaft 21 makes intermittent type formula rotation. Experimenters accessible touch-sensitive screen 62 observes the temperature and the humidity condition in the stirred tank 2 to adjust control temperature regulating device 4 and humidity control device 5 through touch-sensitive screen 62, reach the purpose of the interior cultivation temperature of regulation control stirred tank 2 and humidity. On the basis of realizing the stirring and adjusting temperature, humidity, install agitating unit, detection device 3, temperature regulation apparatus 4 and humidity control device 5 integration inside organism 1 to improve the inside space utilization of organism 1, reduce the occupation to laboratory space simultaneously.

Example 2

Referring to fig. 14, the present embodiment is different from embodiment 1 in the way of turning on the water source. In this embodiment, a water tank 55 and a water pump 56 are installed in the machine body 1, the water tank 55 and the water pump 56 are communicated with the water inlet of the water outlet pipe 51 through a second water pipe 57, a second valve body 58 is installed on the second water pipe 57, and an electromagnetic valve is also used as the second valve body 58 to control the on-off of the pipeline of the second water pipe 57. The second water pipe 57 and the second valve body 58 are fixed inside the machine body 1 like the water tank 55 and the water pump 56, the second water pipe 57 is wound around the frame 113, and the second valve body 58 is locked and installed on the base 111. In order to facilitate the experimenter to supply water to the water tank 55, dustcoat 112 department installs the water inlet that is linked together with water tank 55, water inlet department can adopt the chock plug to seal, also can adopt the coupling to seal, do not influence the moisturizing operation simultaneously, of course also can be through the mode that directly sets up the turnover door on dustcoat 112, realize the components of a whole that can function independently setting of water tank 55 and organism 1, but the water tank 55 and the base 111 of this moment can be dismantled and be connected, the experimenter need open the turnover door, take out water tank 55 and accomplish the moisturizing operation.

The implementation principle of the embodiment 2 is as follows: when the experimenter adjusts the culture humidity in the stirring tank 2, the experimenter can control the humidity adjusting device 5 through the touch screen 62 and the controller 6, namely, the second valve body 58 is opened, the water pump 56 pumps the stored water in the water tank 55 and sprays the water into the stirring tank 2 through the second water pipe 57 and the spray head 52; the organic solid waste biochemical treatment machine can realize the supply of water required by humidity regulation by itself without accessing a water source outside the machine body 1.

Example 3

Referring to fig. 15, the present embodiment is different from embodiment 1 in that the experimenter adjusts the control mode, and the controller 6 is connected with a remote control device 63 through signals. In this embodiment, be equipped with the remote controller with 6 signal connection of controller alone to the experimenter can also install software APP in the cell-phone simultaneously in keeping away from organism 1's position directly controlling, and through wireless connection's mode and 6 signal connection of controller, so that the experimenter adjusts the operation, realizes the purpose of synchronous shared detection data simultaneously.

The implementation principle of the embodiment 3 is as follows: utilize wireless transmission control's mode, realize the wireless regulation operation of longer distance in the laboratory, can also know the real-time data of temperature and humidity in the stirred tank 2 by wireless transmission simultaneously to realize synchronous data transmission and adjust the purpose of controlling.

Example 4

Referring to fig. 16, the present embodiment is different from embodiment 1 in that: the temperature sensor 31 and the humidity sensor 32 are mounted at different positions and in different detection manners. In the present embodiment, the temperature sensor 31 is installed on the tank side wall of the agitation tank 2 at a position below the agitation shaft, and the humidity sensor 32 is installed on the tank side wall of the agitation tank 2 at a position on the side of the air intake opening 71. The temperature sensor 31 and the humidity sensor 32 may be both probe-type sensors, however, the temperature sensor 31 needs to be immersed in the material in the agitation tank 2, and the humidity sensor 32 needs to be entirely exposed out of the material in the agitation tank 2, that is, the temperature sensor 31 is used for detecting the temperature in the material, and the humidity sensor 32 is used for detecting the air humidity in the agitation tank 2.

The implementation principle of the embodiment 4 is as follows: the detection scheme for detecting the air humidity in the stirring tank 2 is used for replacing the detection scheme for detecting the humidity in the material as shown in the first embodiment, so that the problem that when the humidity sensor 32 is immersed in the material to detect the humidity in the material, the detection value is inaccurate due to different material components and uneven humidity in the material is solved, and the aim of further improving the humidity detection accuracy is fulfilled.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (14)

1. An organic solid waste biochemical treatment machine is characterized in that: the device comprises a machine body (1), wherein a stirring tank (2) is arranged on the machine body (1), a stirring device for stirring materials in the stirring tank (2) and a detection device (3) for detecting the temperature and humidity of the materials in the stirring tank (2) are also arranged on the machine body (1), the stirring device comprises a stirring shaft (21) which is rotatably arranged in the stirring tank (2), and the detection device (3) comprises a sensor arranged in the stirring tank (2); and stirred tank (2) department is provided with temperature regulation apparatus (4) and humidity control device (5) that link mutually with detection device (3), temperature regulation apparatus (4) are including setting up heating member (41) on stirred tank (2), humidity control device (5) are including setting up shower nozzle (52) that are connected in stirred tank (2) and with the water source.

2. The biochemical treatment machine for organic solid wastes according to claim 1, characterized in that: the sprayer (52) is connected with a first water pipe (54), a first valve body (53) for controlling the on-off of a pipeline is arranged on the first water pipe (54), and the first water pipe (54) is communicated with a water source outside the machine body (1).

3. The biochemical treatment machine for organic solid wastes according to claim 1, characterized in that: the sprayer (52) is connected with a second water pipe (57), a second valve body (58) for controlling the on-off of the pipeline is arranged on the second water pipe (57), and a water tank (55) and a water pump (56) which are communicated with the second water pipe (57) are arranged in the machine body (1).

4. The biochemical treatment machine for organic solid wastes according to any one of claims 1 to 3, characterized in that: the machine body (1) is provided with a water outlet pipe (51) at the position of the stirring tank (2), the water outlet pipe (51) is communicated with a water source, and the spray head (52) is detachably connected with the water outlet pipe (51).

5. The biochemical treatment machine for organic solid wastes according to claim 1, characterized in that: the sensor is including temperature sensor (31) and humidity transducer (32), temperature sensor (31) set up in the tank bottom of stirred tank (2), and a plurality of humidity transducer (32) interval arrangement sets up in the tank bottom central point department of stirred tank (2).

6. The biochemical treatment machine for organic solid wastes according to claim 5, characterized in that: temperature sensor (31) set up in the groove lateral wall department of stirred tank (2) and detect the temperature of material in stirred tank (2), humidity transducer (32) set up in the groove lateral wall department of stirred tank (2) and detect the humidity of air in stirred tank (2).

7. The biochemical treatment machine for organic solid wastes according to claim 1, characterized in that: the intelligent shower nozzle is characterized in that a controller (6) which is used for collecting sensor data and adjusting and controlling the heating element (41) and the shower nozzle (52) is arranged in the machine body (1), and a touch screen (62) which is used in cooperation with the controller (6) is arranged on the machine body (1).

8. The biochemical treatment machine for organic solid wastes according to claim 7, characterized in that: the controller (6) is in signal connection with a remote control device (63).

9. The biochemical treatment machine for organic solid wastes according to claim 1, characterized in that: the machine body (1) is provided with an exhaust device (7) for pumping gas generated in the stirring tank (2), the exhaust device (7) comprises an exhaust fan (9) and an air treatment assembly (8) which are communicated, an air inlet (71) is formed in the stirring tank (2), and an air outlet (72) is formed in the machine body (1); the exhaust fan (9) pumps out the gas in the stirring tank (2) through the air inlet (71), and the gas is discharged through the air outlet (72) after being processed by the air processing assembly (8).

10. The biochemical treatment machine for organic solid wastes according to claim 9, characterized in that: and a filter screen (74) is arranged at the air inlet (71).

11. The biochemical treatment machine for organic solid wastes according to claim 10, characterized in that: the air inlet (71) is provided with an installation frame (73), and the filter screen (74) is detachably connected with the installation frame (73).

12. The biochemical treatment machine for organic solid waste according to claim 9 or 10, characterized in that: the air treatment component (8) comprises an ultraviolet sterilization component (81), a photocatalyst treatment component (82) and an activated carbon treatment component (83) which are sequentially communicated.

13. The biochemical treatment machine for organic solid wastes according to claim 12, characterized in that: the ultraviolet sterilization component (81) comprises an ultraviolet sterilization pipe (811) communicated with the air inlet (71) and an ultraviolet irradiation lamp (812) arranged in the ultraviolet sterilization pipe (811), and a filter sleeve (813) used for filtering dust particles is arranged in the ultraviolet sterilization pipe (811).

14. The biochemical treatment machine for organic solid wastes according to claim 13, characterized in that: the filtering sleeve (813) is sleeved outside the ultraviolet irradiation lamp (812).

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