KR101916764B1 - Solid fermentation device integration control system - Google Patents

Abstract

The present invention provides a solid fermentation device integration control system which monitors and manages real-time data and history data of one or more solid fermentation devices and remotely monitors and controls operation states of multiple solid fermentation devices. To this end, the solid fermentation device integration control system comprises: a solid fermentation device including a material sensor measuring a material state of a product, an operation sensor measuring the operation state of the solid fermentation device, and an environment sensor measuring an environment state required for producing the product; and a solid fermentation device integration control server monitoring the operation of the solid fermentation device, controlling to perform a normal operation when an abnormality occurs in the operation of the solid fermentation device, generating operation history information of the solid fermentation device, analyzing a problem generated when producing the product by using the operation history information to generate problem analysis information, comparing and analyzing product production information of the product produced by each solid fermentation device with the operation history information of the corresponding solid fermentation device, and generating optimal product production information.

Description

[0001] Solid fermentation device integration control system [0002]

The present invention relates to a solid fermentor integrated control system, and more particularly, to a solid fermentor integrated control system that monitors the operation state of a solid fermentor and controls it to operate in a steady state.

The solid fermenter is a device for aging raw materials used in the manufacture of koji paste, doenjang, soy sauce, etc. and fermented products by fermenting the ingredients in the emulsion chamber through stirring and stirring.

A typical solid fermenter is provided with rails on both sides of the top of the imperial plate so as to supply the material to a constant thickness on the imperial plate provided in the imperial chamber and to stir the material on the imperial plate, And a stirrer for agitating the mixed raw material at a time interval set so that aged raw materials are well aged.

Such a solid fermenter produces a large amount of product, and if it fails to perform a normal operation in the production process, it produces a poor quality product, which results in discarding a large amount of product.

Therefore, there is a need for an integrated management system capable of monitoring and managing the operation of a solid fermentor in real time so that the solid fermenter can perform normal operations.

Korean Registered Patent No. 10-1429930 (Entry Manufacturing Equipment)

An object of the present invention is to provide a solid fermentor integrated management system capable of monitoring and controlling the operation state of a plurality of solid fermentors remotely by monitoring and managing real-time data and historical data of one or more solid fermentors.

It is another object of the present invention to provide a solid fermentor integrated management system capable of providing user-friendly operation and maintenance convenience.

It is another object of the present invention to provide a solid fermenter integrated management system that controls the production of a product having a desired taste by monitoring the state of the material in the product production process.

The present invention monitors the operation state of one or more solid fermentors (emitter), stores and manages operating state histories to control the operation of each of the solid fermentors, and compares and analyzes the production and state of products produced from the solid fermentor A solid fermenter integrated management system comprising: a material sensor for measuring a state of a material of the product; an operation sensor for measuring an operating state of the solid fermenter; and an environmental sensor for measuring an environmental condition required for production of the product Solid fermentors; And controlling the solid fermentor to perform a normal operation when an abnormality occurs in the operation of the solid fermenter by monitoring the operation of the solid fermentor, generating operation history information of the solid fermenter, A solid fermentor integrated management system for analyzing problems to generate problem analysis information, and comparing the production information of the products produced by the respective solid fermentors with the operation history information of the corresponding solid fermentors to generate optimal product production information A solid fermentor integrated management system is provided.

Here, the material sensor may include a temperature sensor for measuring the temperature of the material and a material analyzing device for measuring fermentation information of the material.

Here, the operation sensor senses the operation of the mechanical device included in the solid fermentor.

Here, the environmental sensor measures the temperature, humidity, and air flow intensity of the air circulating inside the emitter chamber and the air conditioner of the solid fermenter.

The solid fermenter integrated management server includes a communication unit that communicates with each of the solid fermentor and the administrative terminal, an air conditioner monitoring unit that generates monitoring information of the air conditioner of the solid fermentor, A solid state fermenter, and a solid state fermenter, wherein the solid state fermenter includes: an apparatus monitoring unit for generating emulsion state monitoring information of the solid fermentor, an emitter room monitoring unit for generating emulsion room monitoring information of the solid fermentor, An operation history information generating unit operable to generate operation history information of the solid fermenter including machine monitoring information, emulsion room monitoring information, and material state analysis information; Compared to the corresponding product production standard operating process information, A problem analyzing information generating unit for generating problem analyzing information for identifying a problem occurring in a certain operation process of the solid fermenter when a problem occurs in the product production process of the fermenter, A DB storing product production standard operation process information; And controlling the normal operation to be performed when an abnormality occurs in the operation of the solid fermenter, and when the product production information of the product produced by each solid fermenter producing the same product and the operation history information of the corresponding solid fermenter are the same product And a control unit for controlling the operation of the solid fermentor in order to generate optimum product production information for producing an optimal product and to produce an optimal product.

Here, the controller may transmit an alarm message to the administrator terminal when a problem occurs in at least one of the request from the administrator terminal or the information constituting the operation history information of the solid fermenter.

Here, the temperature sensor measures the temperature of the material placed on the imperial plate, and the material analyzing apparatus is installed on the bottom of the imperial plate, and the material analyzing apparatus includes a sensor for measuring the acidity, And a sensor for measuring the salinity, as shown in FIG.

Here, the controller may control the operation of the solid fermenter so that the material becomes a product having a desired taste using information obtained from a sensor measuring the acidity, a sensor measuring the sugar content, and a sensor measuring the salinity . ≪ / RTI >

The present invention has the effect of analyzing the operation state of a plurality of solid fermentors at one place in real time and comparing and analyzing the operation states of the respective solid fermentors at the time of product production problems.

In addition, the present invention has the effect of easily analyzing the operating state of the solid fermenter by inspecting, when necessary, the important data of each solid fermenter as data.

In addition, the present invention has the effect of promptly solving the problem of the solid fermenter by notifying the manager of the problem of the solid fermenter immediately when the abnormality of the solid fermenter occurs.

1 is a view showing the configuration of an integrated solid fermenter management system according to an embodiment of the present invention.
2 is a view showing the position of a sensor of a solid fermenter according to an embodiment of the present invention.
FIG. 3 is a view showing a configuration of a solid fermenter integrated management server according to an embodiment of the present invention.
4 is a diagram illustrating a screen configuration for managing a solid fermenter provided in the solid fermenter integrated management server according to an embodiment of the present invention.
5 is a view showing the configuration of a material sensor of a solid fermentor according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be embodied in various forms.

The present embodiments are provided so that the disclosure of the present invention is thoroughly disclosed and that those skilled in the art will fully understand the scope of the present invention.

And the present invention is only defined by the scope of the claims.

Thus, in some embodiments, well known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

In addition, throughout the specification, like reference numerals refer to like elements, and the terms (mentioned) used herein are intended to illustrate the embodiments and not to limit the invention.

In this specification, the singular forms include plural forms unless the context clearly dictates otherwise, and the constituents and acts referred to as " comprising (or having) " do not exclude the presence or addition of one or more other constituents and actions .

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs.

Also, commonly used predefined terms are not ideally or excessively interpreted unless they are defined.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a view showing the configuration of an integrated solid fermenter management system according to an embodiment of the present invention.

The solid fermentor integrated management system of the present invention comprises a solid fermentor (1, 2, 3) and a solid fermentor integrated management server (100).

The administrator terminals 200 and 300 may be directly connected to the solid fermenter integrated management server 100 to display the operation and management status of the solid fermentors 1,2,3. And information constituting operating history information of the solid fermenter (1, 2, 3) connected to the manager terminal (200) capable of performing the control function and the solid fermenter integrated management server (100) And an administrator mobile terminal 300 capable of receiving an alarm message when a problem occurs in the administrator mobile terminal 300.

Solid fermentors (1, 2, 3) are production facilities that produce fermented products such as kochujang, soybean paste, soy sauce, and alcohol.

In the solid fermenter integrated management server 100 of the present invention, a plurality of solid fermentors 1, 2 and 3 may be connected through communication.

In FIG. 1, three solid fermentors (1, 2, 3) are connected to the solid fermenter integrated management server 100 for convenience of explanation.

The solid fermenter integrated management server 100 is connected to each of the solid fermentors 1, 2, and 3 installed in respective factories to monitor, manage, and control the operation of the solid fermentors 1, .

Here, the solid fermenter integrated management server 100 of the present invention not only monitors and manages the operation state of the solid fermentors 1, 2 and 3, but also operates abnormally in the operation of the solid fermentors 1, The operation history information of each of the solid fermentors 1, 2, and 3 is generated, and the operation history information of the solid fermentors 1, 2, (1, 2, 3), the problem analysis information of the corresponding solid fermenter (1, 2, 3) is generated, and the problems produced in each solid fermenter The product production information of the product and the operation history information of the solid fermenter (1, 2, 3) are compared with each other and the optimal product production information is generated so that the optimum product can be produced from the solid fermenter .

To this end, the solid fermenter (1, 2, 3) of the present invention comprises a material sensor 41 for measuring the material state of the product, an operation sensor 11, 51 for measuring the operation state of the solid fermentor 1, 81), and environmental sensors (21, 31) for measuring environmental conditions necessary for production of the product.

2 is a view showing the position of a sensor of a solid fermenter according to an embodiment of the present invention.

The solid fermenter 1 of the present invention is provided with the material sensor 41 on the immanent plate 40 for measuring the material state of the product and the air conditioner 10 of the solid fermentor 1 And an operation sensor 51 for measuring the operation state of the inlet / outlet tappet and the stirrer 50 is installed in the inlet / outlet tappet of the solid fermentor 1 and the stirrer 50 Environmental sensors 21 and 31 for measuring the environmental conditions of the imperial room 60 necessary for the production of the product are installed in the ventilation devices 20 and 30 and the steam for controlling the temperature of the air conditioning device 10 And a water supply and supply unit 80 for water and cold water are provided with operation sensors 81 for measuring the temperatures of steam, water and cold water.

The material sensor 41 is a sensor for measuring the state of the material 70 and measures the state of the product in the production process of the product. Here, the material sensor 41 may be configured to include a temperature sensor 42 for measuring the temperature of the material 70 and a material analyzer 43 for measuring the fermentation information of the material.

A detailed description of the material sensor 41 will be described later with reference to FIG.

The environmental sensors 21 and 31 installed in the ventilation devices 20 and 30 are used to control the temperature of the air circulating inside the ventilation devices 20 and 30 and the inside of the emitter chamber 60, And the environmental condition of the imperial room 60 necessary for production of the product is measured.

The material sensor 41, the environmental sensors 21 and 31 and the motion sensors 11, 51 and 81 provided in the solid fermentor 1 of the present invention are connected to the solid fermentor integrated management server 100 through communication And transmits the measured information.

Here, the communication is controlled by a PLC (Programmable Logic Controller) and can be connected through a mobile communication such as a power line communication, a LAN, Internet, CDMA or LTE.

FIG. 3 is a view showing a configuration of a solid fermenter integrated management server according to an embodiment of the present invention.

The solid fermentor integrated management server 100 of the present invention includes an air conditioning system monitoring unit 110, a machine monitoring unit 120, an emitter room monitoring unit 130, a material state analysis unit 140, 150, a problem analysis information generating unit 160, a communication unit 170, a DB 180, and a control unit 190.

The air conditioner monitoring unit 110 generates air conditioner monitor information of the solid fermentor 100.

To this end, the air conditioner monitoring unit 110 receives information on the operation state of the air conditioner 10 from the operation sensor 11 that measures the operation state of the air conditioner 10.

The device monitoring unit 120 generates the device monitoring information of the solid fermentor 100. [ Here, the mechanical device of the solid fermentor 100 means the air conditioner 10, the inlet / outlet trough device, the stirrer 50, and the water feeder 80 that perform the mechanical operation of the solid fermentor 100.

The imperial room monitoring unit 130 generates information on the environmental conditions of the imperial room 60 and generates monitoring information on the environmental conditions of the imperial room 60. [

For this purpose, the imperial room monitoring unit 130 detects the environmental conditions inside the imperial room 60 based on the information obtained from the material sensor 41, the environmental sensors 21 and 31 and the motion sensors 11, .

That is, the temperature state and fermentation state information of the material 70 obtained from the material sensor 41 and the inside of the ventilation devices 20 and 30 obtained from the environmental sensors 21 and 31 and the inside of the imperial room 60 are circulated The temperature, humidity and the air flow intensity of the imperial room by analyzing the information of the temperature, humidity and air flow intensity of the imperial room, Monitor and manage the internal state of the imperial room so that the product can be produced optimally. The operation state information of the mechanical devices such as the air conditioner 10, the input / output device, and the stirrer 50 and the water supply unit 80 acquired from the motion sensors 11, 51, It is possible to additionally perform the function of inputting and outputting the material 70 inside, the stirring function, and the function of controlling the fermentation of the material in addition to the control unit 190.

The material state analysis unit 140 performs a function of generating material state analysis information located in the empire plate 40 of the emulsion chamber 60.

To this end, the material condition analyzing unit 140 monitors the temperature information of the material 70, fermentation degree information, and the like from the material sensor 41 to monitor, manage, and control information about the material condition of the product have.

The operation history information generating unit 150 generates the operation history information of the solid fermenter 1 including the air conditioner monitoring information, the mechanical monitoring information, the imperial room monitoring information, and the material condition analysis information.

That is, the operation history information generating unit 150 may include monitoring information of the air conditioner, information on all the operations of the solid fermentor 1, monitoring information of the apparatus, and emulsion room monitoring information that affects the material state depending on the operation of the solid fermenter, And generates history-by-date history information with respect to the material state analysis information.

Accordingly, the operation history information includes information on the operation of the solid fermenter 1 according to the entire time period from the introduction of the material 70 into the solid fermentor 1 to the production of the product.

Accordingly, the manager can analyze the operation history information and obtain information on the operation state of the solid fermenter 1 according to the process of producing the product by inputting the material.

The problem analysis information generating unit 160 generates operation information of each solid fermenter (1, 2, 3) connected to the solid fermenter integrated management server 100 in accordance with a product production standard corresponding to the product type produced by the solid fermenter And performs a function of generating problem analysis information including analysis result information about a problem occurring in a certain operation process of the solid fermenter when a problem occurs in the production process of the solid fermenter compared with the operation process information.

Accordingly, when a defect occurs in the product, the administrator uses the problem analysis information generated by the problem analysis information generating unit 160 to find out from which solid fermenter (1, 2, 3) the defect product is manufactured due to what cause .

The communication unit 170 performs communication with each of the solid fermentors 1, 2, and 3 and the administrator terminals 200 and 300. As described above, the communication unit 170 can be connected to the solid fermentors 1, 2, and 3 and the administrator terminals 200 and 300 through wired communication such as PLC and LAN, and mobile communication such as CDMA or LTE.

The DB 180 stores operation history information and product production standard operation process information corresponding to the product type.

Here, the operation history information is information including the air conditioner monitoring information, the mechanical monitoring information, the imperial room monitoring information, the material condition analysis information, and the like, and the product production standard operation process information includes information Information on the standard product generation condition information for each step from the material for producing the desired product to the product, from the material, the information about the product 70, the initial set value information of the material 70 for producing the desired product,

That is, the production standard process information refers to material and standard product production information according to the product type.

The control unit 190 controls the solid fermenter to perform a normal operation in the event of an abnormality in the operation of the solid fermenter, and generates product production information (product) of the product produced by each of the solid fermentors (1,2,3) Production process information and product quality information) and the operation history information of the solid fermenter are compared with each other between the solid fermenters producing the same product to generate the optimum product production information for producing the optimum product and generate the optimum product Thereby controlling the operation of the solid fermenter.

That is, the control unit 190 includes an air conditioner monitoring unit 110, a mechanical device monitoring unit 120, an emitter room monitoring unit 130, a material condition analyzing unit 140, an operation history information generating unit 150, The information about the quality of the same product manufactured by each of the solid fermentors 1, 2 and 3 is managed and controlled so that the solid fermentor 1 performs a normal operation using the information generated from the information generating unit 160, To select the solid fermenter (1) that produced the highest quality product, and to select the best product production information for the other solid fermenter To control all solid fermentors (1,2,3) to produce high quality products.

The control unit 190 generates an alarm message when a problem occurs in at least one of the information requested by the administrator terminal 200 or 300 or the information constituting the operation history information of the solid fermenter 1, Lt; / RTI >

The controller 190 may control the uninterruptible power supply when a power failure occurs when the uninterruptible power supply (UPS) is connected to the solid state fermenter integrated management server 100, So that the solid fermenter integrated management server 100 can always be supplied with power and perform normal operation.

4 is a diagram illustrating a screen configuration for managing a solid fermenter provided in the solid fermenter integrated management server according to an embodiment of the present invention.

FIG. 4 shows an example in which the solid fermenter integrated management server 100 of the present invention provides information for monitoring and management of the solid fermentor to the administrator terminals 200 and 300.

The area A in FIG. 4 is a screen configuration for displaying the solid fermenter selected for operation and management of all the solid fermentors connected to the solid fermenter integrated management server 100.

FIG. 4 is a diagram showing the operation conditions of the solid fermentor selected by the administrator among the solid fermentors connected to the solid fermenter integrated management server 100 and the production process conditions of the product during the production process.

The area C in FIG. 4 is a screen area for displaying the air conditioner monitoring information, the imperial room monitoring information, the machine monitoring information, and the imperial room monitoring information of the solid fermentor selected by the administrator among the solid fermentors connected to the solid state fermenter integrated management server 100 .

4 is a screen area where operation history information and problem analysis information of the solid fermenter selected by the administrator among the solid fermentors connected to the solid fermenter integrated management server 100 are displayed.

In the region D of FIG. 4, history information and problem analysis information on the operating state of the solid fermenter are displayed in a graph.

The operation history information and the problem analysis information of the solid fermenter can be displayed in a graph. Time and date information according to the production stage of the product is displayed on the X-axis, and the material sensor 41 and the environment sensor 21 , 31) are displayed.

Therefore, when the temperature and humidity in the Y-axis deviate from the normal range in the production stage of the product in the X-axis, it can be understood that a problem has occurred in the production stage of the product. In this case, it can be seen that the operation of the mechanical device of the solid fermentor, the air conditioner 10, and the water supply unit 80, which operate in the corresponding step, is out of normal operation.

In addition, when the history information on the operation state and the problem analysis information are displayed in the form of a graph to perform the history management, it is possible to analyze how the product affects the product when a problem occurs at a specific stage of the product. If the final product is analyzed and it is judged how the temperature and humidity conditions are applied in a specific production process based on the occurrence of an abnormal condition at a specific stage of the production process of the product, Temperature and humidity conditions) affect the product.

The control unit 190 of the present invention accumulates history information and problem analysis information on the operating state of the solid fermentor and analyzes the big data to find out the production process steps It can be provided as notification information to the administrator.

Thereafter, the manager can monitor and manage the operation of the solid fermentor in the production process with more interest by using the notification information.

5 is a view showing the configuration of a material sensor of a solid fermentor according to an embodiment of the present invention.

The material sensor 41 of the present invention is installed in the imperial plate 40.

The material sensor 41 of the present invention can be configured to include the temperature sensor 42 and the material analysis device 43 for measuring the fermentation information of the material as described above.

For this, the material sensor 41 of the present invention may be composed of two layers. The temperature sensor 42 is installed on the upper part of the material sensor 41 and contacts or inserts the material 70 through the perforation hole of the imperial plate 40 to measure the temperature of the material.

The material analyzing device 43 is disposed below the reclaiming sensor 41 and the upper part of the material sensor 41 forms a hole so that the material 70 is conveyed through the perforation hole of the emitter plate 40 to the material sensor 41), the degree of fermentation of the material (70), the acidity, the sugar content and the salinity are measured.

To this end, the material analyzer 43 includes a sensor 44 for measuring one or more tastes. Here, the sensor 44 for measuring taste may be at least one of a sensor for measuring acidity, a sensor for measuring sugar content, and a sensor for measuring saltiness.

In addition, the control unit 190 may use the information obtained from the sensor for measuring the acidity, the sensor for measuring the sugar content, and the sensor for measuring salinity included in the material analyzer 43 so that the material becomes a product having a desired taste The operation of the solid fermenter can be controlled.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. Obviously, such modifications are intended to be within the scope of the claims.

1.2.3: Solid Fermentor
10: Air conditioner
11,51,81: Motion sensor
20, 30: Ventilation device
21, 31: Environmental sensor
40: Imperial Edition
41: Material sensor
42: Temperature sensor
43: Material Analysis Apparatus
44: Sensor to measure taste
50: Feeding device and stirrer
60: Imperial room
70: Material
80: Water supply unit
100: Solid fermentor integrated management server
110: air conditioner monitoring unit
120: Machinery monitoring section
130: Imperial room monitoring department
140: material condition analysis unit
150: Operation history information generating unit
160: Problem Analysis Information Generation Unit
170:
180: DB
190:
200 and 300:

Claims (8)

(Emitter) which comprises a fermentation product comprising a fermentation product comprising a fermentation product comprising a fermentation product comprising a fermentation product comprising a fermentation product comprising a fermentation product comprising a fermentation product comprising a fermentation product containing a fermented soybean paste, A solid fermenter for controlling the operation of each of the solid fermentors by monitoring the operation state of the fermenter and storing and managing the operation state histories of the respective solid fermentors and for comparing and analyzing the production and state of the products produced from the solid fermentor In an integrated management system,
A solid fermenter including a material sensor for measuring a material state of the product, an operation sensor for measuring an operating state of the solid fermenter, and an environmental sensor for measuring an environmental condition required for production of the product; And
Monitoring the operation of at least one of the solid fermentors connected through communication to control the normal operation to be performed when an abnormality occurs in the operation of the solid fermenter, generate operation history information of each solid fermenter, To generate problem analysis information by analyzing the problems occurring in the production of the product, and to produce the same product by using the product production information of the product produced by each solid fermenter producing the same product and the operation history information of the corresponding solid fermenter The solid fermenter that produced the best quality product was selected and the product information of the solid fermenter that produced the product of the highest quality was selected as the optimum product production information and the optimum Of the same product by applying Solid fermenter integrated management server, all solid fermentor to a control unit for controlling so as to produce an optimum product;
A solid fermentor integrated management system.
The method according to claim 1,
The material sensor is installed on an emitter plate of the solid fermentor, and is composed of two layers. A temperature sensor for measuring the temperature of the material is installed on the upper portion of the material sensor, And a material analysis device for measuring fermentation information of the material falling through the perforation hole,
The material analyzing apparatus includes at least one of a sensor for measuring acidity, a sensor for measuring sugar content, and a sensor for measuring salinity,
The control unit controls the operation of the solid fermenter so that the material becomes a product having a desired taste using information obtained from a sensor measuring the acidity, a sensor measuring the sugar content, and a sensor measuring the saltiness A solid fermentor integrated management system.
The method according to claim 1,
Wherein the motion sensor senses an operation of a mechanical device included in the solid fermenter,
Wherein the mechanical device is the inlet / outlet device, the stirrer, the ventilator, the air conditioner, and the water supply unit.
The method according to claim 1,
Wherein the environmental sensor measures temperature, humidity, and air flow intensity of air circulating inside the emitter chamber of the solid fermentor and inside the air conditioner.
The method according to claim 1,
The solid fermenter integrated management server includes:
A communication unit for performing communication with each of the solid fermenter and the manager terminal;
An air conditioner monitoring unit for generating air conditioner monitor information of the solid fermenter;
A mechanical device monitoring unit for generating mechanical monitoring information of the solid fermentor;
An imperial room monitoring unit for generating imperial room monitoring information of the solid fermenter;
A material state analyzer for generating material state analysis information of the solid fermentor;
An operation history information generating unit for generating operation history information of the solid fermenter including the air conditioner monitor information, the machine monitoring information, the emitter room monitoring information, and the material state analysis information;
If the operation history information is compared with the product production standard operation process information corresponding to the product type produced by the corresponding solid fermentor, if there is a problem in the production process of the solid fermenter, there is a problem in the operation process of the solid fermenter A problem analyzing information generating unit for generating problem analysis information for determining whether the test analyzing unit has performed the test analyzing process;
A database storing the operation history information and the product production standard operation process information corresponding to the product type; And
And controlling the normal operation to be performed when an abnormality occurs in the operation of the solid fermenter, and producing product information of the product produced by each solid fermenter producing the same product and operation history information of the corresponding solid fermenter The solid fermenter that produces the best quality product is selected and the product information of the solid fermenter that produces the product with the highest quality is selected as the optimum product production information, The control unit controlling all the solid fermentors producing the same product by applying the product production information to produce an optimum product;
Wherein the solid fermenter is a solid fermenter.
The method of claim 5,
Wherein the controller transmits an alarm message to the administrator terminal when a problem occurs in at least one of the request from the administrator terminal or the information constituting the operation history information of the solid fermenter,
The operation history information and the problem analysis information are accumulated and it is possible to find a production process step (timing) which has a significant influence on the quality of the product through the big data analysis, and to provide the notification information to the manager Integrated Fermenter Integrated Management System.
The method according to claim 1,
An uninterruptible power supply (UPS) is connected to the solid fermenter integrated management server,
The controller controls the uninterruptible power supply unit to immediately supply power to the solid-state fermenter integrated management server so that the solid-state fermentor integrated management server is always supplied with power and performs a normal operation Features a solid fermentor integrated management system.
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