CN116855352A - Aseptic accuse wet accuse temperature transfer line in inoculation fungus workshop - Google Patents

Abstract

The invention discloses an aseptic humidity and temperature control transfer conveyor line for an inoculation fungus culturing workshop, which relates to the technical field of fungus culturing conveying and comprises the following components: the device comprises a base, a conveying mechanism, a detecting mechanism and a heating mechanism, wherein a conveying frame is fixedly arranged at the top of the base. When the temperature sensor is used, the temperature sensor is started to detect the temperature in the sealed cover, the detected result is transmitted to the PLC controller, when the temperature is too low, the PLC controller controls the electric heating rod to work to generate heat, the ceramic heat-conducting plate heats water in the evaporation water tank to evaporate the water into water vapor, then the water vapor enters the bent pipe through the air outlet hole and the air guide pipe to heat the bent pipe, and then the heat is transmitted to the surrounding air through the heat-conducting adhesive tape, so that the temperature in the sealed cover is increased, the phenomenon that the activity of the strain is influenced by lower environmental temperature when the strain is transmitted on the conveyor belt is prevented, and when the temperature reaches an expected value, the electric heating rod is turned off.

Description

Aseptic accuse wet accuse temperature transfer line in inoculation fungus workshop

Technical Field

The invention relates to the technical field of fungus culturing and conveying, in particular to a sterile humidity and temperature control transfer conveying line for an inoculation fungus culturing workshop.

Background

The fungus culturing workshop is a production place specially used for culturing and propagating microbial strains. In a fungus culturing plant, the process operations of culturing, fermenting, separating, extracting and the like of the strain are generally carried out to produce a required microorganism product or intermediate product. The inoculation fungus culturing workshop is one link in the fungus culturing workshop and mainly refers to a region for inoculating the strain. In this area, the seed is inoculated into a medium or culture vessel, which causes it to begin growing and propagating. In order to realize ordered transfer and distribution of strains, reduce risks in manual operation and transfer processes and improve working efficiency, transfer conveyor lines such as conveyor belts or transport carts are generally used for conveying culture containers inoculated with the strains.

In the prior art, the transfer conveying line in the inoculation fungus culturing workshop is mostly directly exposed in the air for direct conveying in the using process, but a plurality of strains have certain requirements on proper temperature, when special conditions are met, such as low air temperature, the activity of the strains can be possibly influenced, the growth speed of the strains is slow, the physiological activity of the strains is influenced, and therefore the quality of the strains is influenced.

So we propose a sterile humidity and temperature control transfer conveyor line of an inoculation fungus culturing workshop so as to solve the problems.

Disclosure of Invention

The invention aims to provide an aseptic humidity-control temperature-control transfer conveyor line for an inoculation and fungus-culturing workshop, which aims to solve the problem that in the process of conveying a fungus strain by the transfer conveyor line for the inoculation and fungus-culturing workshop, if the environmental temperature of the fungus strain is lower, the physiological activity of the fungus strain can be influenced, so that the growth speed of the fungus strain is slow, and the quality of the fungus strain is influenced.

In order to achieve the above purpose, the present invention provides the following technical solutions: an aseptic accuse wet accuse temperature transfer line in inoculation fungus workshop includes: the device comprises a base, a conveying mechanism, a detecting mechanism and a heating mechanism, wherein a conveying frame is fixedly arranged at the top of the base;

the detection mechanism comprises a sealing cover, and a temperature sensor is arranged on the front surface of one side, close to the sealing cover, of the sealing cover;

the heating mechanism comprises a heating box, an evaporation water tank is fixedly arranged on the inner wall of the heating box, an electric heating rod is arranged on the inner wall, close to the bottom surface, of the heating box, a ceramic heat conducting plate is fixedly arranged on the inner wall, close to the electric heating rod, of the heating box, air outlet holes are formed in the tops of the heating box and the evaporation water tank, one of the air outlet holes is fixedly connected with an air guide pipe, a bending pipe is fixedly connected to the top end of the air guide pipe, and a heat conducting adhesive tape is arranged on the outer surface of the bending pipe.

Preferably, the front surface that the carriage is close to one side is installed the PLC controller through the bolt, the front surface that the carriage is close to PLC controller department is provided with bee calling organ, the front surface that the sealed cowling is close to temperature sensor department is provided with humidity transducer, the top that the sealed cowling is close to the opposite side is provided with photoelectricity speed sensor, the sealed cowling is close to the equal fixed mounting of inner wall of both sides has high-efficient filter.

Preferably, the front surface wall of the sealing cover, which is close to the top, is fixedly connected with two bactericidal lamps, the front surface and the rear surface of the sealing cover, which are close to the bottom, are respectively and fixedly arranged on the front surface wall and the rear surface of the sealing cover, which are close to the top, of the conveying frame, the top of the base, which is close to the other side, is fixedly provided with a condensing mechanism, and the top of the base, which is close to the condensing mechanism, is fixedly provided with a humidifying mechanism.

Preferably, the condensing mechanism comprises a condensing tower, the input fixedly connected with connecting pipe of condensing tower, the one end of connecting pipe is provided with the solenoid valve, the one end of crooked pipe is connected with the input of solenoid valve, the output fixedly connected with drain pipe of condensing tower, the bottom fixed mounting of condensing tower has the support frame, the bottom fixed mounting of support frame is close to the top of opposite side at the base.

Preferably, the humidifying mechanism comprises a high-pressure water pump, the input end of the high-pressure water pump is connected with a water suction pipe through a flange plate, the output end of the high-pressure water pump is fixedly connected with a conveying pipe through the flange plate, one end of the conveying pipe fixedly penetrates through the inside of the sealing cover, one end of the conveying pipe is fixedly connected with a fixing pipe, and the outer surface of the fixing pipe is fixedly connected with a plurality of atomizing nozzles.

Preferably, the conveying mechanism comprises a motor, a rotating shaft is fixedly arranged at the output end of the motor, a mounting plate is fixedly arranged on the front surface of the conveying frame, which is close to the bottom, a frequency converter is arranged at the top of the mounting plate, which is close to one side, a driving gear is fixedly arranged on the outer surface of the rotating shaft, a toothed belt is connected with the outer surface of the driving gear in a meshed manner, a driven gear is connected with the inner wall of the toothed belt, which is close to one side, a rotating rod is fixedly arranged in the driven gear, and one end of the rotating shaft is movably embedded in the front surface of the conveying frame, which is close to the other side.

Preferably, the bottom fixed mounting of motor is close to the top of opposite side at the mounting panel, the carriage is close to the inside of both sides and all movably embedded and is equipped with the driving roller, two the surface movable sleeve of driving roller is equipped with the conveyer belt, two the equal fixed mounting in both ends of driving roller has the extension rod, a plurality of the one end of extension rod is movable respectively runs through to the front surface and the rear surface of carriage, the one end fixed connection of one of them extension rod of dwang.

Preferably, the outer surface fixed intercommunication that evaporation water tank is close to the top has the water feeding pipe, the top fixedly connected with conical pipe of water feeding pipe, the surface thread bush that conical pipe is close to the top is equipped with the screw cap, the one end activity of water feeding pipe runs through to the surface of heating cabinet, the bottom fixed mounting of heating cabinet is at the top that the base is close to one side, the top of ceramic heat-conducting plate is laminated mutually with the bottom of evaporation water tank.

Preferably, the top of evaporation water tank and the inside top surface fixed connection of heating cabinet, the inside to the sealed cowling is fixed to run through to the one end of crooked pipe, the one end of crooked pipe is fixed to run through to the sealed cowling and is close to the rear surface of opposite side, the surface of crooked pipe is kept away from heat conduction sticky tape department fixed mounting and is had two fixed blocks, two the rear surface of fixed block is all fixed mounting at the back surface wall of sealed cowling.

Preferably, the fixed pipe is close to the equal fixed mounting of surface at both ends and has a solid fixed ring, two the equal fixed mounting in the inside top surface of sealed cowling in top of gu fixed ring, the one end activity of drain pipe runs through to the inside of storage water tank, the fixed intercommunication in top of storage water tank has the inlet tube, the top of inlet tube is provided with the shield, the base is close to the top fixed mounting of rear surface and has the storage water tank, the one end of drinking-water pipe is fixed to run through to the inside of storage water tank.

Compared with the prior art, the invention has the beneficial effects that:

1. when the temperature sensor is used, the temperature sensor is started to detect the temperature in the sealed cover, the detected result is transmitted to the PLC controller, when the temperature is too low, the PLC controller controls the electric heating rod to work to generate heat, the ceramic heat-conducting plate heats water in the evaporation water tank to evaporate the water into water vapor, then the water vapor enters the bent pipe through the air outlet hole and the air guide pipe to heat the bent pipe, and then the heat is transmitted to the surrounding air through the heat-conducting adhesive tape, so that the temperature in the sealed cover is increased, the phenomenon that the activity of the strain is influenced by lower environmental temperature when the strain is transmitted on the conveyor belt is prevented, and when the temperature reaches an expected value, the electric heating rod is turned off.

2. When the water heater is used, the electromagnetic valve is opened through the PLC, water vapor inside the bent pipe flows into the connecting pipe, then enters the inside of the condensing tower, is changed into liquid water through the condensation effect of the condensing tower, is discharged into the water storage tank through the water drainage pipe to be stored, and is recycled, so that water resource waste is reduced.

3. When the device is used, the humidity sensor is started to detect the humidity inside the sealed cover, the humidity result is transmitted to the PLC controller, when the humidity is too low, the PLC controller controls the high-pressure water pump to start, water is pumped into the conveying pipe through the water pumping pipe and then flows into the fixed pipe, finally atomized water beads are sprayed out through the plurality of atomizing nozzles, the humidity inside the sealed cover is improved, thereby the effect of humidity detection is achieved, when the humidity reaches an expected value, the high-pressure water pump is closed, the breeding of bacteria and mold can be reduced under proper temperature and humidity conditions, the risk of pollution and cross infection in the strain transmission process is reduced, when external air enters the sealed cover, microorganisms and particulate matters in the air can be filtered, the air quality is ensured, ultraviolet rays are emitted through the sterilizing lamp, and the inside of the sealed cover is sterilized.

4. When the speed sensor is used, the strain culture container is placed on the conveying belt, the motor is started, the rotating shaft and the driving gear are driven to rotate, the toothed belt and the driven gear are driven to rotate, the rotating rod and one of the extension rods are driven to rotate, the corresponding driving roller is further driven to rotate, the conveying belt is driven to rotate, the strain culture container is conveyed, meanwhile, the photoelectric speed sensor is used for detecting the speed, the detection result is conveyed to the PLC, when the speed is abnormal, the PLC can control the buzzer to send out prompt sounds, and a worker can adjust the rotating speed of the motor through the frequency converter, so that the rotating speed of the conveying belt is adjusted.

Drawings

FIG. 1 is a front perspective view of an aseptic humidity-control temperature-control transfer conveyor line of an inoculation and fungus-culturing workshop;

FIG. 2 is a rear perspective view of a sterile humidity-control temperature-control transfer conveyor line of an inoculation and fungus-culturing workshop;

FIG. 3 is a cross-sectional and expanded perspective view of a sterile humidity-control temperature-control transfer conveyor line of an inoculation and fungus-culturing workshop;

FIG. 4 is a structural development perspective view of a conveying mechanism in a sterile humidity-control temperature-control transfer conveyor line of an inoculation and fungus-culturing workshop;

FIG. 5 is a structural development perspective view of a temperature raising mechanism in an aseptic humidity control and temperature control transfer conveyor line of an inoculation and fungus culturing workshop;

FIG. 6 is a structural development perspective view of a condensing mechanism in a sterile humidity-control temperature-control transfer line of an inoculation and fungus-culturing workshop;

FIG. 7 is a structural development perspective view of a humidifying mechanism in a sterile humidity-control temperature-control transfer conveyor line of an inoculation and fungus-culturing workshop;

FIG. 8 is a cross-sectional, expanded perspective view of a detection mechanism in an aseptic humidity-control and temperature-control transfer conveyor line of an inoculation and fungus-culturing workshop;

fig. 9 is a structural development perspective view of a rotating rod in an aseptic humidity-control temperature-control transfer conveyor line of an inoculation fungus-culturing workshop.

In the figure: 1. a base; 2. a carriage; 3. a conveying mechanism; 301. a motor; 302. a frequency converter; 303. a driven gear; 304. a dental tape; 305. a conveyor belt; 306. a rotating lever; 307. a rotating shaft; 308. a drive gear; 309. a driving roller; 310. an extension rod; 4. a humidifying mechanism; 401. a high pressure water pump; 402. a water storage tank; 403. a water pumping pipe; 404. a delivery tube; 405. a water inlet pipe; 406. a dust cover; 407. a fixed tube; 408. an atomizing nozzle; 409. a fixing ring; 5. a temperature raising mechanism; 501. a heating box; 502. an electric heating rod; 503. a water supply pipe; 504. a conical tube; 505. a screw cap; 506. an air duct; 507. bending the tube; 508. a ceramic heat conducting plate; 509. an evaporation water tank; 510. a thermally conductive tape; 511. an air outlet hole; 512. a fixed block; 6. a detection mechanism; 601. a sealing cover; 602. a high-efficiency filter; 603. a photoelectric speed measuring sensor; 604. a humidity sensor; 605. a temperature sensor; 606. a germicidal lamp; 7. a condensing mechanism; 701. a condensing tower; 702. a connecting pipe; 703. an electromagnetic valve; 704. a support frame; 705. a drain pipe; 8. a PLC controller; 9. a buzzer; 10. and (3) mounting a plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 9, the present invention provides a technical solution: an aseptic accuse wet accuse temperature transfer line in inoculation fungus workshop includes: the device comprises a base 1, a conveying mechanism 3, a detecting mechanism 6 and a heating mechanism 5, wherein a conveying frame 2 is fixedly arranged at the top of the base 1; the detection mechanism 6 comprises a sealing cover 601, and a temperature sensor 605 is arranged on the front surface of one side, close to the sealing cover 601, of the sealing cover; the heating mechanism 5 comprises a heating box 501, an evaporation water tank 509 is fixedly arranged on the inner wall of the heating box 501, an electric heating rod 502 is arranged on the inner wall, close to the bottom surface, of the heating box 501, a ceramic heat conducting plate 508 is fixedly arranged on the inner wall, close to the electric heating rod 502, of the heating box 501, air outlet holes 511 are formed in the tops of the heating box 501 and the evaporation water tank 509, an air duct 506 is fixedly connected to the top of one air outlet hole 511, a bending tube 507 is fixedly connected to the top of the air duct 506, and a heat conducting adhesive tape 510 is arranged on the outer surface of the bending tube 507.

Meanwhile, as shown in fig. 1-5 and 8, a front surface of the conveying frame 2 close to one side is provided with a PLC controller 8 through bolts, a buzzer 9 is arranged on the front surface of the conveying frame 2 close to the PLC controller 8, a humidity sensor 604 is arranged on the front surface of the sealing cover 601 close to the temperature sensor 605, a photoelectric speed sensor 603 is arranged on the top of the sealing cover 601 close to the other side, an efficient filter 602 is fixedly arranged on the inner walls of the sealing cover 601 close to the two sides, the humidity condition inside the sealing cover 601 can be detected through the humidity sensor 604, the temperature condition inside the sealing cover can be detected through the temperature sensor 605, the conveying speed of the conveying belt 305 can be detected through the photoelectric speed sensor 603, the result is conveyed to the PLC controller 8, the starting and the closing of other devices are controlled through the PLC controller 8, the buzzer 9 can prompt a worker that the conveying speed of the conveying belt 305 is abnormal, and microorganisms and particles in the air can be filtered through the efficient filter 602.

According to the fig. 1-4, two sterilizing lamps 606 are fixedly connected to the front surface wall of the sealing cover 601 near the top, the front surface and the rear surface of the sealing cover 601 near the bottom are respectively fixedly installed on the front surface wall and the rear surface wall of the conveying frame 2 near the top, the top of the base 1 near the other side is fixedly installed with a condensing mechanism 7, the top of the base 1 near the condensing mechanism 7 is fixedly installed with a humidifying mechanism 4, ultraviolet rays can be emitted through the sterilizing lamps 606, and the nucleic acid molecules of microorganisms are killed by destroying the nucleic acid molecules, so that the interior of the sealing cover 601 is sterilized.

According to the figures 2 and 5-6, the condensing mechanism 7 comprises a condensing tower 701, the input end of the condensing tower 701 is fixedly connected with a connecting pipe 702, one end of the connecting pipe 702 is provided with an electromagnetic valve 703, one end of the bending pipe 507 is connected with the input end of the electromagnetic valve 703, the output end of the condensing tower 701 is fixedly connected with a drain pipe 705, the bottom of the condensing tower 701 is fixedly provided with a supporting frame 704, the bottom of the supporting frame 704 is fixedly arranged at the top of the base 1 close to the other side, and by opening the electromagnetic valve 703, water vapor enters the condensing tower 701 from the connecting pipe 702, is changed into liquid water through the condensation of the condensing tower 701, and finally can be discharged into the water storage tank 402 through the drain pipe 705.

According to the embodiments shown in fig. 1-2, 5 and 7-8, the humidifying mechanism 4 comprises a high-pressure water pump 401, wherein the input end of the high-pressure water pump 401 is connected with a water pumping pipe 403 through a flange, the output end of the high-pressure water pump 401 is fixedly connected with a conveying pipe 404 through the flange, one end of the conveying pipe 404 fixedly penetrates into the sealed cover 601, one end of the conveying pipe 404 is fixedly connected with a fixed pipe 407, the outer surface of the fixed pipe 407 is fixedly connected with a plurality of atomizing nozzles 408, the high-pressure water pump 401 is started to pump water in the water tank 402 into the water pumping pipe 403 and the conveying pipe 404, then the water flows into the fixed pipe 407, and finally atomized water drops are sprayed out through the atomizing nozzles 408.

According to the fig. 1, 3-4 and 9, the conveying mechanism 3 comprises a motor 301, a rotating shaft 307 is fixedly arranged at the output end of the motor 301, a mounting plate 10 is fixedly arranged on the front surface of the conveying frame 2 close to the bottom, a frequency converter 302 is arranged at the top of the mounting plate 10 close to one side, a driving gear 308 is fixedly arranged on the outer surface of the rotating shaft 307, a toothed belt 304 is connected to the outer surface of the driving gear 308 in a meshed manner, a driven gear 303 is connected to the inner wall of the toothed belt 304 close to one side in a meshed manner, a rotating rod 306 is fixedly arranged in the driven gear 303, one end of the rotating shaft 307 is movably embedded in the front surface of the conveying frame 2 close to the other side, and the rotating speed of the motor 301 can be adjusted through the frequency converter 302, so that the conveying speed of the conveying belt 305 can be adjusted.

According to the embodiments shown in fig. 1, fig. 3-fig. 4 and fig. 9, the bottom of the motor 301 is fixedly installed at the top of the mounting plate 10 near the other side, the driving rollers 309 are movably embedded in the inner parts of the two sides of the carriage 2 near the two sides, the outer surfaces of the two driving rollers 309 are movably sleeved with the conveying belts 305, the two ends of the two driving rollers 309 are fixedly installed with extension rods 310, one ends of the extension rods 310 respectively penetrate through the front surface and the rear surface of the carriage 2, one end of the rotation rod 306 is fixedly connected with one end of one extension rod 310, the rotation shaft 307 is driven to rotate by starting the motor 301, then the driving gear 308 and the toothed belt 304 are driven to rotate simultaneously, so that the driven gear 303 and the rotation rod 306 which are in meshed connection with the toothed belt 304 are driven to rotate, one extension rod 310 is driven to rotate, the corresponding driving roller 309 is further driven to rotate, and the conveying belt 305 is driven to start to rotate, so that the culture container is conveyed.

According to the embodiment shown in fig. 2-3 and 5, the outer surface of the evaporation water tank 509 near the top is fixedly connected with a water adding pipe 503, the top end of the water adding pipe 503 is fixedly connected with a conical pipe 504, the outer surface of the conical pipe 504 near the top is sleeved with a screw cap 505, one end of the water adding pipe 503 movably penetrates through the outer surface of the heating box 501, the bottom of the heating box 501 is fixedly installed at the top of the base 1 near one side, the top of the ceramic heat conducting plate 508 is attached to the bottom of the evaporation water tank 509, the screw cap 505 is opened, water is poured into the water adding pipe 503 through the conical pipe 504, so that the water flows into the evaporation water tank 509 along the inner wall of the water adding pipe 503, the subsequent heating of the water is facilitated, and the water vapor is obtained by evaporation.

According to the embodiments shown in fig. 2-3, 5-6 and 8, the top of the evaporation water tank 509 is fixedly connected with the top surface inside the heating tank 501, one end of the bending tube 507 is fixedly penetrated into the inside of the sealing cover 601, one end of the bending tube 507 is fixedly penetrated into the rear surface of the sealing cover 601 close to the other side, two fixing blocks 512 are fixedly installed on the outer surface of the bending tube 507 far from the heat conduction adhesive tape 510, the rear surfaces of the two fixing blocks 512 are fixedly installed on the rear surface wall of the sealing cover 601, the bending tube 507 is fixedly installed through the two fixing blocks 512, the stability of the bending tube 507 is improved, and shaking is prevented.

According to the figures 2 and 5-8, the outer surfaces of the fixing pipes 407 close to the two ends are fixedly provided with fixing rings 409, the tops of the two fixing rings 409 are fixedly arranged on the top surface inside the sealing cover 601, one end of the drain pipe 705 movably penetrates through the inside of the water storage tank 402, the top of the water storage tank 402 is fixedly communicated with a water inlet pipe 405, the top of the water inlet pipe 405 is provided with a dust cover 406, the top of the base 1 close to the rear surface is fixedly provided with the water storage tank 402, one end of the water pumping pipe 403 fixedly penetrates through the inside of the water storage tank 402, the fixing pipes 407 are fixed through the two fixing rings 409, the firmness is improved, water can be added into the water storage tank 402 through the water inlet pipe 405, the subsequent water pumping and humidification are facilitated, and dust can be prevented from falling into the water storage tank 402 through the dust cover 406.

The whole mechanism achieves the following effects: when in use, the bottom of the high-pressure water pump 401 is fixedly arranged at the top of the base 1, the stability of the high-pressure water pump is improved, vibration generated when the subsequent high-pressure water pump 401 works is prevented from being caused, the displacement of the high-pressure water pump is caused, the bottoms of the two high-efficiency filters 602 are provided with enough high spaces for a culture container filled with strains to pass through, wherein a motor 301, a frequency converter 302, the high-pressure water pump 401, an electric heating rod 502, a photoelectric speed measuring sensor 603, a humidity sensor 604, a temperature sensor 605, a sterilizing lamp 606, an electromagnetic valve 703, a buzzer 9 and a PLC 8 are electrically connected, a screw cap 505 is opened in advance, water is poured into a water adding pipe 503 through the conical tube 504, so that the water flows into an evaporation water tank 509 along the inner wall of the water adding pipe 503, after enough water is added into the evaporation water tank 509, the screw cap 505 is screwed, the conical tube 504 is sealed, the subsequent water vapor is prevented from leaking, and the water resource is wasted, turning on an external power supply of the PLC 8, starting a temperature sensor 605, a humidity sensor 604 and a photoelectric speed measuring sensor 603 through the PLC 8, setting maximum and minimum working thresholds related to the internal temperature of the sealed cover 601, the maximum and minimum working thresholds of the humidity and the maximum and minimum working thresholds of the rotating speed of the conveying belt 305 in corresponding modules inside the PLC 8 in advance, detecting the internal temperature of the sealed cover 601 in real time through the temperature sensor 605, transmitting a temperature detection result to the PLC 8 in an electric signal mode, identifying the PLC 8 according to received temperature data, comparing the temperature detection result with the preset maximum and minimum temperature values, indicating that the internal temperature of the sealed cover 601 is too low when the received temperature value is lower than the set minimum working value, the PLC controller 8 controls the electric heating rod 502 to work, generates a large amount of heat, the heat is transferred to the evaporation water tank 509 through the ceramic heat conducting plate 508, heats the water in the evaporation water tank 509 to evaporate into water vapor, the ceramic heat conducting plate 508 has higher heat conductivity and low heat capacity, can quickly absorb the heat generated by the electric heating rod 502 and quickly release the heat to the evaporation water tank 509, the ceramic material has better stability in a high-temperature environment and is not easily influenced by thermal expansion and thermal deformation, better heat conducting performance can be maintained, quick heat conduction is realized under the action of the ceramic heat conducting plate 508, thereby improving the heating speed of the evaporation water tank 509 and the speed of evaporating water vapor, saving time, improving the working efficiency, the evaporated water vapor enters the air guide pipe 506 through the two air outlet holes 511, then enters the bending pipe 507 and flows along the bending pipe 507, the bending tube 507 is heated by flowing high-temperature steam, after the bending tube 507 is preheated, the electromagnetic valve 703 is started to be opened by the PLC 8, heat is transferred to the bending tube 507 under the continuous flow of the high-temperature steam, the heat conduction adhesive tape 510 is attached to the bending tube 507, the heat is transferred to the heat conduction adhesive tape 510 from the bending tube 507 in a heat conduction mode, once the surface of the heat conduction adhesive tape 510 is heated, the heat is transferred to the surrounding air in a radiation, convection and conduction mode, so that the heat on the bending tube 507 can be quickly dissipated into the air to play a role of quick heat conduction, the temperature inside the sealing cover 601 is improved, the activity of the strain is prevented from being influenced by lower passing environmental temperature when the strain is conveyed on the conveying belt 305, when the temperature accords with an expected value, the PLC 8 controls the electric heating rod 502 to be closed, after the electromagnetic valve 703 is opened, the water vapor in the bent pipe 507 flows into the connecting pipe 702 through the electromagnetic valve 703 and then enters the condensing tower 701, the condensing tower 701 consists of a tower body, a condensing tube bundle and a condensing medium, after entering the condensing tower 701, the water vapor is subjected to heat exchange with the condensing medium, so that the water vapor starts to condense into liquid, the liquid flows along the surface of the condensing tube bundle in the tower body and is finally collected at the bottom of the tower, then the liquid is discharged into the water storage tank 402 through the water drain pipe 705 to be stored, the water vapor is recycled, the waste of water resources is reduced, the humidity in the sealing cover 601 is detected through the humidity sensor 604, the humidity result is transmitted to the PLC 8 in an electric signal mode, the PLC 8 is identified according to the received humidity data and is identified with the preset maximum and minimum humidity values, when the humidity value is lower than the preset minimum working value, the humidity inside the sealed cover 601 is too low, and the air is dry, at this time, the PLC controller 8 controls the high-pressure water pump 401 to start, under the pressurization effect of the high-pressure water pump 401, the water inside the water storage tank 402 is pumped into the conveying pipe 404 through the water pumping pipe 403, then flows into the fixed pipe 407, finally, the water is sprayed out in an atomized form through the plurality of atomizing nozzles 408, the humidity inside the sealed cover 601 is improved, so as to achieve the effect of humidity detection, when the humidity reaches the expected value, the PLC controller 8 controls the high-pressure water pump 401 to be closed, the proper temperature and humidity conditions can reduce the breeding of bacteria and mold, so as to reduce the risk of pollution and cross infection in the strain conveying process, maintain the purity and the sterile state of the strain, and when the external air enters the sealed cover 601, the external air passes through the two high-efficiency filters 602, microorganisms and particulate matters in the air can be filtered, the air quality is ensured, the adhesion of microorganisms in the sealed cover 601 is reduced, two sterilizing lamps 606 can be controlled to be started by a PLC (programmable logic controller) 8, ultraviolet rays are emitted by the sterilizing lamps 606 through using specific LED chips, the microorganisms are killed by destroying nucleic acid molecules of the microorganisms, the interior of the sealed cover 601 is sterilized, when a space formed by the sealed cover 601 and the conveying mechanism 3 is sterile and has proper temperature and humidity, a strain culture container is placed on the conveying belt 305, the output end of the motor 301 is fixedly installed together with one end of the rotating shaft 307, the other end of the rotating shaft 307 is movably embedded on the outer surface of the conveying frame 2, the rotating shaft 307 can normally rotate when the motor 301 is conveniently driven by the motor 301, the motor 301 is started by the PLC 8, the rotating shaft 307 is driven by the output end of the motor 301, and the driving gear 308 is fixedly installed on the outer surface of the rotating shaft 307, the rotation of the rotating shaft 307 drives the driving gear 308 and the toothed belt 304 to rotate, the outer surface of the driven gear 304 is meshed with the toothed belt 304, a rotating rod 306 is fixedly arranged in the driven gear 303, the rotation of the toothed belt 304 drives the driven gear 303 to rotate, then the driven gear 303 drives the rotating rod 306 to rotate simultaneously, one end of the rotating rod 306 is fixedly connected with one end of one of the extending rods 310, one of the extending rods 310 is further driven to rotate by the rotation of the rotating rod 306, the corresponding driving roller 309 is further driven to rotate, the conveying belt 305 is driven to start rotating, so that the strain culture container is conveyed, the speed of the strain culture container is detected by the photoelectric speed sensor 603 while the conveying belt 305 rotates, the detection result is conveyed to the PLC 8 in an electric signal mode, and the PLC 8 recognizes and compares the received data, when the speed exceeds the preset maximum value or is lower than the minimum value, the PLC controller 8 controls the buzzer 9 to generate a beeping sound to prompt the staff that the rotation speed of the conveying belt 305 is abnormal, the staff can adjust the rotation speed of the output end of the motor 301 by adjusting the rotation speed of the output end of the motor 301 through the rotation speed adjusting button on the frequency converter 302, so that the effect of conveniently adjusting the conveying speed is achieved, and the problems that the physiological activity of the strain is possibly affected, the growth speed of the strain is slow and the quality of the strain is affected when the environmental temperature of the strain is lower in the process of conveying the strain by transferring the strain in the inoculation strain culturing workshop are solved under the cooperation of the heating mechanism 5, the detecting mechanism 6 and the humidifying mechanism 4.

Wherein, the motor 301, the frequency converter 302, the high-pressure water pump 401, the electric heating rod 502, the photoelectric speed measuring sensor 603, the humidity sensor 604, the temperature sensor 605, the sterilizing lamp 606, the electromagnetic valve 703, the buzzer 9 and the PLC controller 8 are all in the prior art, and the components and the use principle thereof are all in the public technology, and are not explained too much here.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. Sterile accuse wet accuse temperature transfer line in inoculation fungus workshop, its characterized in that includes: the device comprises a base (1), a conveying mechanism (3), a detecting mechanism (6) and a heating mechanism (5), wherein a conveying frame (2) is fixedly arranged at the top of the base (1);

the detection mechanism (6) comprises a sealing cover (601), and a temperature sensor (605) is arranged on the front surface of one side, close to the sealing cover (601);

the heating mechanism (5) comprises a heating box (501), an evaporation water tank (509) is fixedly arranged on the inner wall of the heating box (501), an electric heating rod (502) is arranged on the inner wall, close to the bottom surface, of the heating box (501), a ceramic heat conducting plate (508) is fixedly arranged on the inner wall, close to the electric heating rod (502), of the heating box (501), air outlet holes (511) are formed in the tops of the heating box (501) and the evaporation water tank (509), one air outlet hole (511) is fixedly connected with an air guide pipe (506), a bending pipe (507) is fixedly connected to the top end of the air guide pipe (506), and a heat conducting adhesive tape (510) is arranged on the outer surface of the bending pipe (507).

2. The aseptic humidity and temperature control transfer conveyor line for an inoculation and fungus culturing workshop according to claim 1, wherein: the front surface that carriage (2) is close to one side is installed PLC controller (8) through the bolt, the front surface that carriage (2) is close to PLC controller (8) department and is provided with bee calling organ (9), the front surface that sealed cowling (601) is close to temperature sensor (605) department and is provided with humidity transducer (604), the top that sealed cowling (601) is close to the opposite side is provided with photoelectricity speed sensor (603), the inner wall that sealed cowling (601) is close to both sides is all fixed mounting has high-efficient filter (602).

3. The aseptic humidity and temperature control transfer conveyor line for an inoculation and fungus culturing workshop according to claim 2, wherein: the utility model discloses a portable electric energy storage device, including sealed cowling (601), condensing mechanism (7) are installed to the top fixed mounting that base (1) is close to the opposite side, condensing mechanism (7) are installed to the top that base (1) is close to, condensing mechanism (7) department fixed mounting has humidification mechanism (4) are located to the top that sealed cowling (601) is close to the front surface and the back surface that the top is close to bottom respectively fixed mounting at the front surface and the back surface that carriage (2) is close to the top.

4. A sterile humidity and temperature control transfer line for an inoculation and fungus culturing workshop according to claim 3, wherein: the condensing mechanism (7) comprises a condensing tower (701), the input end fixedly connected with connecting pipe (702) of condensing tower (701), the one end of connecting pipe (702) is provided with solenoid valve (703), the one end of crooked pipe (507) is connected with the input of solenoid valve (703), the output fixedly connected with drain pipe (705) of condensing tower (701), the bottom fixed mounting of condensing tower (701) has support frame (704), the bottom fixed mounting of support frame (704) is close to the top of opposite side at base (1).

5. The aseptic humidity and temperature control transfer conveyor line for an inoculation and fungus culturing workshop according to claim 4, wherein: the humidifying mechanism (4) comprises a high-pressure water pump (401), the input end of the high-pressure water pump (401) is connected with a water suction pipe (403) through a flange plate, the output end of the high-pressure water pump (401) is fixedly connected with a conveying pipe (404) through the flange plate, one end of the conveying pipe (404) is fixedly penetrated into the sealing cover (601), one end of the conveying pipe (404) is fixedly connected with a fixing pipe (407), and the outer surface of the fixing pipe (407) is fixedly connected with a plurality of atomizing spray heads (408).

6. The aseptic humidity and temperature control transfer conveyor line for an inoculation and fungus culturing workshop according to claim 1, wherein: the conveying mechanism (3) comprises a motor (301), a rotating shaft (307) is fixedly arranged at the output end of the motor (301), a mounting plate (10) is fixedly arranged on the front surface of the conveying frame (2) close to the bottom, a frequency converter (302) is arranged on the top of the mounting plate (10) close to one side, a driving gear (308) is fixedly arranged on the outer surface of the rotating shaft (307), a toothed belt (304) is connected with the outer surface of the driving gear (308) in a meshed mode, a driven gear (303) is connected with the inner wall of the toothed belt (304) close to one side in a meshed mode, a rotating rod (306) is fixedly arranged in the driven gear (303), and one end of the rotating shaft (307) is movably embedded in the front surface of the conveying frame (2) close to the other side.

7. The aseptic humidity and temperature control transfer line for an inoculation and fungus culturing workshop according to claim 6, wherein: the bottom fixed mounting of motor (301) is close to the top of opposite side at mounting panel (10), carriage (2) are close to the inside of both sides and all movably inlay driving roller (309), two the surface movable sleeve of driving roller (309) is equipped with conveyer belt (305), two the equal fixed mounting in both ends of driving roller (309) has extension rod (310), a plurality of the one end of extension rod (310) is movable respectively runs through to the front surface and the rear surface of carriage (2), the one end of dwang (306) and one end fixed connection of one of them extension rod (310).

8. The aseptic humidity and temperature control transfer line for an inoculation and fungus culturing workshop according to claim 7, wherein: the utility model discloses a ceramic heat-conducting plate, including evaporating water tank (509), ceramic heat-conducting plate (508), evaporating water tank (501), heating tank (501), water adding pipe (503) are had in the surface fixed intercommunication that is close to the top, the top fixedly connected with conical tube (504) of water adding pipe (503), the surface thread bush that conical tube (504) is close to the top is equipped with screw cap (505), the one end activity of water adding pipe (503) runs through to the surface of heating tank (501), the bottom fixed mounting of heating tank (501) is at the top that base (1) is close to one side, the top of ceramic heat-conducting plate (508) is laminated with the bottom of evaporating water tank (509).

9. The aseptic humidity and temperature control transfer line for an inoculation and fungus culturing workshop according to claim 8, wherein: the top of evaporating water tank (509) and the inside top surface fixed connection of heating cabinet (501), the inside to sealed cowling (601) is fixed to run through to one end of crooked pipe (507), the one end of crooked pipe (507) is fixed to run through to the back surface that sealed cowling (601) is close to the opposite side, the surface of crooked pipe (507) is kept away from heat conduction sticky tape (510) department fixed mounting and is had two fixed blocks (512), two the back surface of fixed block (512) is equal fixed mounting at the back surface wall of sealed cowling (601).

10. The aseptic humidity and temperature control transfer line for an inoculation and fungus culturing workshop according to claim 5, wherein: the utility model discloses a water pump, including fixed pipe (407) and base (1), fixed pipe (407) are close to the surface at both ends and equal fixed mounting has solid fixed ring (409), two the top of solid fixed ring (409) is equal fixed mounting at the inside top surface of sealed cowling (601), the one end activity of drain pipe (705) runs through to the inside of storage water tank (402), the fixed intercommunication in top of storage water tank (402) has inlet tube (405), the top of inlet tube (405) is provided with shield (406), the base (1) is close to the top fixed mounting of rear surface has storage water tank (402), the one end of drinking-water pipe (403) is fixed to run through the inside of storage water tank (402).