CN113932521A - Method for shortening use period of strain refrigeration - Google Patents

Abstract

The invention discloses a method for shortening the service cycle of strain refrigeration, which relates to the technical field of strain refrigeration, in particular to a method for shortening the service cycle of strain refrigeration, and comprises the following operation steps: preparing strains, marking the strains, storing the strains, setting a strain taking certificate, and taking the strains; comprises the following devices and appliances: intelligent access equipment, intelligent mobile terminal, culture dish, transfering loop, 250ml triangular flask, high pressure steam sterilization pot, kraft paper, alcohol blast burner, constant temperature incubator, alcohol cotton ball, tear drop type ampoule, label, long neck capillary glass tube, ordinary cotton, freeze dryer. According to the method for shortening the use period of the strain in the cold storage process, the strain is marked by the human-computer interaction module and then placed into the storage unit, and when the strain is taken and placed in the later stage, the strain can be directly identified and taken through the digital pick-up code, the two-dimensional code and the bar code, so that the method is convenient and rapid to operate, high in automation degree, capable of shortening the searching time in the use process and shortening the whole use period of the strain.

Description

Method for shortening use period of strain refrigeration

Technical Field

The invention relates to the technical field of strain refrigeration, in particular to a method for shortening the service cycle of strain refrigeration.

Background

As an important biological resource, in order to keep the excellent characters of the strain unchanged, the strain should be preserved in time, and the current food strain preservation methods mainly comprise a liquid nitrogen low-temperature refrigeration method, a slope periodic transplantation method, a liquid paraffin method, a sand tube refrigeration method, a natural matrix preservation method and the like, wherein the liquid nitrogen low-temperature refrigeration method is an advanced method at present, but the cost is higher, and the method is mostly adopted by foreign refrigeration institutions. At present, the strains of the flammulina velutipes, the hypsizygus marmoreus and the like are mainly refrigerated by test tubes or bottles.

At present, a strain refrigeration method is mainly used, strains are cultured and then placed in test tubes for packaging and marking, and then the test tubes are directly placed in refrigeration equipment for refrigeration treatment, because the number and the types of the strains cultured at a time are large, when the single strains need to be used, the test tubes need to be searched one by one according to the marks, the operation is complex, the searching is troublesome, the labor intensity is overlarge, the use period of initial material refrigeration and later-period searching of the strains is increased, in addition, when the strains are searched, the test tubes need to be searched one by one, the strain test tubes are in long-time contact with air during searching, the strains are inactivated, the survival rate and the survival quality of the strains are reduced, and therefore, a method for shortening the use period of strain refrigeration is provided to solve the problems.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a method for shortening the use period of strain refrigeration, and solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: a method for shortening the service cycle of strain refrigeration comprises the following operation steps: preparing strains, marking the strains, storing the strains, setting a strain taking certificate, and taking the strains; comprises the following devices and appliances: intelligent access equipment, intelligent mobile terminal, culture dish, transfering loop, 250ml triangular flask, high pressure steam sterilization pot, kraft paper, alcohol blast burner, constant temperature incubator, alcohol cotton ball, tear drop type ampoule, label, long neck capillary glass tube, ordinary cotton, freeze dryer.

The strain preparation comprises the following steps: preparing tear drop type ampoule tube, preparing skimmed milk, preparing bacterial suspension, subpackaging, pre-freezing, vacuum drying, and sealing tube.

The strain markers include: marking the strains (strain name, state, quantity and date) after the tube sealing.

The strain storage comprises the following steps: the strain name is input through the man-machine interaction module, the environmental data required by strain refrigeration in the data is automatically retrieved through the identification module, the strain is placed into the storage unit through the execution unit, and the environment of the storage unit is adjusted through the environment control unit.

The strain taking certificate comprises: the pickup digital code can be freely set through the man-machine interaction module, or the pickup digital code, or the two-dimensional code and the bar code can be automatically generated through the information processing module.

The strain taking comprises the following steps: accessible human-computer interaction module manual input gets a digital code, perhaps through intelligent terminal such as cell-phones scanning get a two-dimensional code or bar code realization to taking of bacterial, identification module is according to getting the bacterial information that a sign indicating number contains, automatic information to depositing the bacterial is acquireed, and take out corresponding bacterial through information processing module control execution unit, the cycle of looking for when shortening the bacterial and taking, put into after cross human-computer interaction module marks the bacterial and deposit the unit, when later stage was got and is put, can directly get a sign indicating number through the digit, the two-dimensional code, the bar code discerns and takes, the operation is convenient rapid, the degree of automation is high, the time of looking for when having reduced the use, the whole life cycle of bacterial has been shortened.

Preferably, the intelligent access device comprises a control mechanism, a storage mechanism, a detection mechanism and a power supply mechanism.

Preferably, the control mechanism is composed of an identity identification module, a man-machine interaction module, a database module, an identification module, a wireless transceiver module and an information processing module.

Preferably, deposit the mechanism and constitute by depositing unit, environmental control unit, execution unit, it has two sets ofly at least to deposit the unit quantity, deposits the unit through setting up the multiunit in intelligent access arrangement, can classify cold-stored according to the bacterial type, is convenient for independently adjust the environmental factor of depositing the unit according to the difference of bacterial, makes this equipment can refrigerate different bacterial, when guaranteeing cold-stored effect, increases application scope.

Preferably, detection mechanism comprises temperature and humidity detection unit, gaseous detecting element, luminance detecting element, the inside of unit is deposited to the detection mechanism position, and detection mechanism and control mechanism electric connection, when cold-stored to the bacterial, monitors bacterial refrigeration environment through detection mechanism in real time, has improved the cold-stored effect of depositing of bacterial, prevents that environmental change from leading to the bacterial deactivation, along with the increase of bacterial refrigeration time, can freely deposit each cold-stored condition of unit and adjust simultaneously, further improve the cold-stored effect to the bacterial.

Preferably, the strain preparation specifically comprises: preparing required utensil and equipment of bacterial preparation, disinfecting utensil and equipment in advance, carrying out the degrease sterilization to milk, screening good bacterial and preliminary culture, dispose bacterial suspension according to the bacterial, through divide the tubulation to carry out the partial shipment to bacterial suspension, divide the partial shipment to bacterial suspension through dividing the tubulation, according to bacterial standard preparation flow, carry out aseptic preparation to the bacterial, prevent that the bacterial from receiving the pollution, guarantee aseptic follow-up can be cold-stored for a long time, guaranteed the quality of bacterial.

Preferably, the strain markers are specifically: the strains after being managed are marked, including strain names, number, date and states, the marking form can be paper recording or database recording of intelligent access equipment, the strain marking form can be freely selected after the strains are packaged through the test tube, the strain marking form can be directly attached to the test tube through marks for pricing, or the test tube is marked through a human-computer interaction module during storage, or the two methods are used simultaneously.

Preferably, the strain storage specifically comprises: the method comprises the steps of editing various kinds of environment data required by refrigeration of different strains in a database of intelligent access equipment in advance, or directly downloading the environment data required by refrigeration of the different strains from the internet, inputting strain names through a human-computer interaction module, automatically retrieving the environment data required by refrigeration of the strains in the data through an identification module, putting the strains into a storage unit through an execution unit, adjusting the environment of the storage unit through an environment control unit, marking the strains through the human-computer interaction module, automatically adjusting the refrigeration environment according to the types of the strains through the identification module, improving the automation degree, further shortening the service cycle, identifying the strain information through the identification module when the strains are taken, identifying and taking the strains through controlling the action of the execution unit through an information processing module, and being more intelligent and efficient.

The invention provides a method for shortening the use period of strain refrigeration, which has the following beneficial effects:

1. according to the method for shortening the use period of the strain in the cold storage process, the strain is marked by the human-computer interaction module and then placed into the storage unit, and when the strain is taken and placed in the later stage, the strain can be directly identified and taken through the digital pick-up code, the two-dimensional code and the bar code, so that the method is convenient and rapid to operate, high in automation degree, capable of shortening the searching time in the use process and shortening the whole use period of the strain.

2. According to the method for shortening the use period of the strain refrigeration, the strain is marked through the human-computer interaction module, the identification module can automatically adjust the refrigeration environment according to the type of the strain, the automation degree is improved, the use period is further shortened, the strain information is identified through the identification module when the strain is taken, the strain can be identified and taken through the action of the information processing module control execution unit, and the method is more intelligent and efficient.

3. According to the method for shortening the use period of the strain refrigeration, when the strain is refrigerated, the strain refrigeration environment is monitored in real time through the detection mechanism, the storage effect of the strain refrigeration is improved, the strain inactivation caused by environmental change is prevented, meanwhile, each refrigeration condition of the storage unit can be freely adjusted along with the increase of the strain refrigeration time, and the refrigeration effect of the strain is further improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the cold field process flow of the present invention;

fig. 2 is a schematic structural diagram of the intelligent access device of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 and 2, the present invention provides a technical solution: a method for shortening the service cycle of strain refrigeration comprises the following operation steps: preparing strains, marking the strains, storing the strains, setting a strain taking certificate, and taking the strains; comprises the following devices and appliances: intelligent access equipment, intelligent mobile terminal, culture dish, transfering loop, 250ml triangular flask, high pressure steam sterilization pot, kraft paper, alcohol blast burner, constant temperature incubator, alcohol cotton ball, tear drop type ampoule, label, long neck capillary glass tube, ordinary cotton, freeze dryer.

The strain preparation comprises the following steps: preparing tear drop type ampoule tube, preparing skimmed milk, preparing bacterial suspension, subpackaging, pre-freezing, vacuum drying, and sealing tube.

The strain markers include: marking the strains (strain name, state, quantity and date) after the tube sealing.

The strain storage comprises the following steps: the strain name is input through the man-machine interaction module, the environmental data required by strain refrigeration in the data is automatically retrieved through the identification module, the strain is placed into the storage unit through the execution unit, and the environment of the storage unit is adjusted through the environment control unit.

The strain taking certificate comprises: the pickup digital code can be freely set through the man-machine interaction module, or the pickup digital code, or the two-dimensional code and the bar code can be automatically generated through the information processing module.

The strain taking comprises the following steps: accessible human-computer interaction module manual input gets a digital code, perhaps through intelligent terminal such as cell-phones scanning get a two-dimensional code or bar code realization to taking of bacterial, identification module is according to getting the bacterial information that a sign indicating number contains, automatic information to depositing the bacterial is acquireed, and take out corresponding bacterial through information processing module control execution unit, the cycle of looking for when shortening the bacterial and taking, put into the unit of depositing after marking the bacterial through human-computer interaction module, when later stage was got and is put, can directly get a sign indicating number through the digit, the two-dimensional code, the bar code discerns and takes, the simple operation is rapid, degree of automation is high, the time of looking for when having reduced the use, the whole life cycle of bacterial has been shortened.

The intelligent access device comprises a control mechanism, a storage mechanism, a detection mechanism and a power supply mechanism,

the control mechanism consists of an identity identification module, a man-machine interaction module, a database module, an identification module, a wireless transceiving module and an information processing module,

deposit the mechanism and constitute by depositing unit, environmental control unit, execution unit, it has two sets ofly at least to deposit the unit quantity, deposits the unit through setting up the multiunit in intelligent access arrangement, can classify cold-stored according to the bacterial type, is convenient for independently adjust the environmental factor who deposits the unit according to the difference of bacterial, makes this equipment can refrigerate different bacterial, when guaranteeing cold-stored effect, increases application scope.

The detection mechanism comprises temperature and humidity detection unit, gaseous detecting element, luminance detecting element, the inside of unit is deposited to the detection mechanism position, and detection mechanism and control mechanism electric connection, when cold-stored to the bacterial, monitors bacterial refrigeration environment through detection mechanism in real time, has improved the cold-stored effect of depositing of bacterial, prevents that the environmental change from leading to the bacterial deactivation, along with the increase of bacterial refrigeration time, can freely deposit each cold-stored condition of unit and adjust simultaneously, further improve the cold-stored effect to the bacterial.

The strain preparation specifically comprises the following steps: preparing required utensil and equipment of bacterial preparation, disinfecting utensil and equipment in advance, carrying out the degrease sterilization to milk, screening good bacterial and preliminary culture, dispose bacterial suspension according to the bacterial, carry out the partial shipment to bacterial suspension through the distribution tube, prepare the flow according to the bacterial standard, carry out aseptic preparation to the bacterial, prevent that the bacterial from receiving the pollution, guarantee aseptic follow-up can refrigerate for a long time, guaranteed the quality of bacterial.

The strain mark specifically comprises the following steps: the strains after being managed are marked, including strain names, number, date and states, the marking form can be paper recording or database recording of intelligent access equipment, the strain marking form can be freely selected after the strains are packaged through the test tube, the strain marking form can be directly attached to the test tube through marks for pricing, or the test tube is marked through a human-computer interaction module during storage, or the two methods are used simultaneously.

The strain storage specifically comprises the following steps: the method comprises the steps of editing various kinds of environment data required by refrigeration of different strains in a database of intelligent access equipment in advance, or directly downloading the environment data required by refrigeration of the different strains from the internet, inputting strain names through a human-computer interaction module, automatically retrieving the environment data required by refrigeration of the strains in the data through an identification module, putting the strains into a storage unit through an execution unit, adjusting the environment of the storage unit through an environment control unit, marking the strains through the human-computer interaction module, automatically adjusting the refrigeration environment according to the types of the strains through the identification module, improving the automation degree, further shortening the service cycle, identifying the strain information through the identification module when the strains are taken, identifying and taking the strains through controlling the action of the execution unit through an information processing module, and being more intelligent and efficient.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, and furthermore, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A method for shortening the use period of strain refrigeration is characterized in that: the method comprises the following operation steps: preparing strains, marking the strains, storing the strains, setting a strain taking certificate, and taking the strains; comprises the following devices and appliances: intelligent access equipment, intelligent mobile terminal, culture dish, transfering loop, 250ml triangular flask, high pressure steam sterilization pot, kraft paper, alcohol blast burner, constant temperature incubator, alcohol cotton ball, tear drop type ampoule, label, long neck capillary glass tube, ordinary cotton, freeze dryer.

The strain preparation comprises the following steps: preparing tear drop type ampoule tube, preparing skimmed milk, preparing bacterial suspension, subpackaging, pre-freezing, vacuum drying, and sealing tube.

The strain markers include: marking the strains (strain name, state, quantity and date) after the tube sealing.

The strain storage comprises the following steps: the strain name is input through the man-machine interaction module, the environmental data required by strain refrigeration in the data is automatically retrieved through the identification module, the strain is placed into the storage unit through the execution unit, and the environment of the storage unit is adjusted through the environment control unit.

The strain taking certificate comprises: the pickup digital code can be freely set through the man-machine interaction module, or the pickup digital code, or the two-dimensional code and the bar code can be automatically generated through the information processing module.

The strain taking comprises the following steps: the accessible human-computer interaction module is manual to be input and is got a digital code, perhaps scans through intelligent terminals such as cell-phones and gets a two-dimensional code or bar code and realize taking to the bacterial, and identification module is according to getting the bacterial information that a sign indicating number contains, acquires the information of depositing the bacterial automatically to take out corresponding bacterial through information processing module control execution unit, look for the cycle of taking when shortening the bacterial and using.

2. The method for shortening the service cycle of the strain refrigeration according to claim 1, which comprises the following steps: the intelligent access device comprises a control mechanism, a storage mechanism, a detection mechanism and a power supply mechanism.

3. The method for shortening the service cycle of the strain refrigeration according to claim 2, wherein: the control mechanism is composed of an identity identification module, a man-machine interaction module, a database module, an identification module, a wireless transceiving module and an information processing module.

4. The method for shortening the service cycle of the strain refrigeration according to claim 2, wherein: the storage mechanism is composed of storage units, an environment control unit and an execution unit, and the number of the storage units is at least two.

5. The method for shortening the service cycle of the strain refrigeration according to claim 2, wherein: the detection mechanism is composed of a temperature and humidity detection unit, a gas detection unit and a brightness detection unit, the detection mechanism is arranged in the storage unit, and the detection mechanism is electrically connected with the control mechanism.

6. The method for shortening the service cycle of the strain refrigeration according to claim 1, which comprises the following steps: the strain preparation specifically comprises the following steps: preparing instruments and equipment required by strain preparation, sterilizing the instruments and the equipment in advance, degreasing and sterilizing milk, screening excellent strains and primarily culturing, preparing a strain suspension according to the strains, and subpackaging the strain suspension through a subpackaging pipe.

7. The method for shortening the service cycle of the strain refrigeration according to claim 1, which comprises the following steps: the strain mark specifically comprises the following steps: marking the strains after being managed, wherein the marks comprise the names, the number, the dates and the states of the strains, and the marking form can be paper record or database record of intelligent access equipment.

8. The method for shortening the service cycle of the strain refrigeration according to claim 1, which comprises the following steps: the strain storage specifically comprises the following steps: various environmental data required by refrigeration of different strains are edited in a database of the intelligent access device in advance, or the environmental data during refrigeration of different strains are directly downloaded from the internet, the names of the strains are input through a human-computer interaction module, the environmental data required by refrigeration of the strains in the data are automatically retrieved through an identification module, the strains are placed into a storage unit through an execution unit, and the environment of the storage unit is adjusted through an environment control unit.

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