JP2021024658A - Warehouse related information management system, control method of warehouse related information management system, and warehouse related information management program - Google Patents

Abstract

To provide a warehouse information management system, a control method, and a program capable of surely acquiring information such as temperature and humidity in a warehouse without taking cost or the like, without limiting an installation position of a measurement unit such as a sensor by using a power-saving communication apparatus even when a large number of rice bags or the like are arranged in the warehouse of a farm and marine product such as rice.SOLUTION: A warehouse related information management system 1 includes: a warehouse related information management device (management server) 100; an external transmission communication unit 30; an in-warehouse environment information measurement unit that measures environmental information in a warehouse; and a farm and marine product environment information measurement unit that measures environmental information of a farm and marine product. Each measurement unit is capable of wirelessly communicating with each other. The in-warehouse environment information measurement unit and the farm and marine product environment information measurement unit also function as a repeater for amplifying signals received wirelessly with each other. The warehouse related information management device 100 receives the environment information measured by each measurement unit via the external transmission communication unit 30, and displays the received environment information on a management terminal 10 of the warehouse.SELECTED DRAWING: Figure 1

Description

The present invention relates to, for example, a warehouse-related information management system that manages information about a warehouse that stores agricultural and marine products such as rice, a control method of the warehouse-related information management system, and a warehouse-related information management program.

Conventionally, there are warehouses for storing agricultural and marine products, especially rice, etc. In such warehouses, in order to maintain the taste quality of rice, to control the temperature and humidity inside the refrigerator, the temperature, humidity, etc. inside the refrigerator, etc. It has been proposed to arrange the measuring instruments of the above and control the temperature, humidity, etc. in the refrigerator (for example, Patent Document 1 etc.).

Patent No. 4246408

However, if a large number of rice bags, etc. for storing rice are placed in the warehouse of agricultural and marine products such as rice, the radio wave environment inside the refrigerator deteriorates, so it is sufficient from the measuring unit that measures the temperature, humidity, etc. placed inside the refrigerator. In order to acquire such temperature information, it is necessary to communicate by wire instead of wirelessly, and there is a problem that the installation position of the measurement unit such as a sensor is limited and the cost increases.

Therefore, according to the present invention, even when a large number of rice bags and the like are arranged in a warehouse of agricultural and marine products such as rice, by using a power-saving communication device, the temperature inside the warehouse can be reliably determined without incurring costs. It is an object of the present invention to provide a warehouse-related information management system capable of acquiring information such as humidity and humidity, a control method of the warehouse-related information management system, and a warehouse-related information management program.

According to the present invention, the object is arranged in a warehouse-related information management device that manages information about a warehouse that stores agricultural and marine products, and a warehouse that can communicate with the warehouse-related information management device and stores the agricultural and marine products. It has an external transmission communication unit and an environmental information measuring unit that measures at least environmental information about the inside of the warehouse and outside the warehouse, and the environmental information measuring unit has environmental information in the warehouse. It has an in-warehouse environmental information measuring unit for measuring the above and an agricultural and marine product environmental information measuring unit for measuring the environmental information of the agricultural and marine products stored in the warehouse, and the in-warehouse environmental information measuring unit and the farming The marine product environment information measurement unit and the communication unit for external transmission are configured to enable wireless communication with each other, and the warehouse environment information measurement unit and the agricultural and marine product environment information measurement unit amplify each other's wirelessly received signals. The warehouse-related information management device has a configuration that also functions as a repeater, and the warehouse-related information management device transmits environmental information measured by the warehouse environment information measurement unit and the agricultural and marine products environment information measurement unit via the external transmission communication unit. This is achieved by a warehouse-related information management system characterized in that the received environmental information is displayed on the display unit of the management terminal of the warehouse.

According to the above configuration, the warehouse environment information measurement unit and the agricultural and marine products environment information measurement unit also function as repeaters for amplifying signals wirelessly received from each other.
Therefore, even if each measurement unit of the warehouse environment information measurement unit and the agricultural and marine products environment information measurement unit is a power-saving communication device, one measurement unit is located in the vicinity of another measurement unit or radio waves. By communicating with another strong measuring unit or the like, the environmental information measured by oneself can be reliably transmitted to the external transmission communication unit via the other measuring unit.
Therefore, the warehouse-related information management device can reliably receive the environmental information measured by each measurement unit via the external transmission communication unit.
Further, since the received environmental information of the measurement unit is displayed on the display unit of the management terminal of the warehouse, the person in charge of management of each warehouse can display the environmental information such as the temperature and humidity of the warehouse on his / her own management terminal. Can be obtained.

Preferably, in the warehouse-related information management system, a multi-hop wireless mesh network is formed by the plurality of the in-warehouse environment information measurement units and the plurality of the agricultural and marine products environment information measurement units, and each of the in-warehouse environment information measurement units and The output frequency of each of the agricultural and marine product environmental information measuring units is 900 MHz to 1 GHz.

According to the above configuration, each warehouse environment information measurement unit and each agricultural and marine product environment information measurement unit are power-saving, can be driven by a battery, receive radio waves for about 1 km, and have a frequency band of 900 MHz to 1 GHz. If there is, the stored agricultural and marine products can be avoided in the warehouse, the radio waves can easily wrap around, and communication can be reliably performed between the above-mentioned measuring units.
On the other hand, at 2.4 GHz or the like exceeding 1 GHz, it is difficult for radio waves to wrap around, while at 400 MHz, which is less than 900 MHz, the radio wave output is too weak and the radio waves do not reach between the above-mentioned measuring units. is there.

Preferably, the warehouse-related information management system displays the received environmental information as daily average information on the display unit of the management terminal of the warehouse, and the environmental information is outlier information. When it is determined, the information for each hour of the day including the abnormal value information is also displayed on the display unit of the management terminal of the warehouse.

According to the above configuration, the received environmental information is displayed on the display unit of the management terminal of the warehouse as daily average information, so that the person in charge of visually recognizing the display unit can display the environmental information such as the temperature of the day. Can be grasped quickly.
In addition, when it is determined that the environmental information is outlier information, the hourly information of the day including the outlier information is also displayed on the display unit of the management terminal of the warehouse.
Therefore, when an abnormal situation such as an open state of the door occurs, the person in charge or the like can quickly grasp detailed information such as when the abnormal value has occurred.

Preferably, the warehouse-related information management system is likely to generate environmental information about at least one of the inside and outside of the warehouse, and at least one of the inside and outside of the warehouse. It is characterized in that activity prediction information of an insect species that occurs in at least one of the inside of the warehouse and the outside of the warehouse is generated based on the growth zero point temperature information and the elapsed time information.

According to the above configuration, it is possible to generate activity prediction information of an insect species that occurs in at least one of the inside and outside of the warehouse and display it to the person in charge of the warehouse, etc. Measures for each insect species can be implemented at an appropriate time.

Preferably, the outside of the warehouse of the warehouse-related information management system includes a preparation area for carrying the agricultural and marine products into the warehouse and an external area outside the preparation area, each of which is prepared. The feature is that the area environment information measurement unit and the external area environment information measurement unit are installed.

According to the above configuration, it is possible to generate activity prediction information of insect species that occur in the preparation area or the external area outside the warehouse, and is in charge of the generation of these areas even if the insect species do not occur in the warehouse. Can be notified to a person.
Therefore, for example, by opening the door of the warehouse, an insect or the like generated in the preparation area or the like can notify the danger of invading the inside.

According to the present invention, the object is arranged in a warehouse-related information management device that manages information about a warehouse that stores agricultural and marine products, and a warehouse that can communicate with the warehouse-related information management device and stores the agricultural and marine products. It has a communication unit for external transmission and an environment information measurement unit that measures at least environmental information about the inside of the warehouse and outside the warehouse, and the environment information measurement unit is the environment inside the warehouse. It is a control method of a warehouse information management system having an in-warehouse environmental information measuring unit for measuring information and an agricultural and marine product environmental information measuring unit for measuring environmental information of the agricultural and marine products stored in the warehouse. The warehouse environment information measurement unit, the agriculture and fishery product environment information measurement unit, and the communication unit for external transmission communicate with each other wirelessly, and the warehouse environment information measurement unit and the agriculture and fishery product environment information measurement unit wirelessly communicate with each other. The warehouse-related information management device also functions as a repeater for amplifying the received signal, and the warehouse-related information management device transmits the environmental information measured by the warehouse environment information measurement unit and the agricultural and marine products environment information measurement unit via the external transmission communication unit. This is achieved by a control method of a warehouse-related information management system, which is characterized in that the received environmental information is displayed on a display unit of a management terminal of the warehouse.

According to the present invention, the object is arranged in a warehouse-related information management device that manages information about a warehouse that stores agricultural and marine products, and a warehouse that can communicate with the warehouse-related information management device and stores the agricultural and marine products. It has an external transmission communication unit and an environmental information measuring unit that measures at least environmental information related to the inside of the warehouse and outside the warehouse, and the environmental information measuring unit has environmental information in the warehouse. In a warehouse information management system having a warehouse environment information measuring unit for measuring and an agricultural and marine product environmental information measuring unit for measuring environmental information of the agricultural and marine products stored in the warehouse, the warehouse environmental information measurement The unit, the agricultural and marine products environmental information measurement unit and the communication unit for external transmission have a function of mutually performing wireless communication, and the warehouse environment information measurement unit and the agricultural and marine products environmental information measurement unit mutually amplify signals received wirelessly. The warehouse-related information management device receives and receives the environmental information measured by the warehouse environment information measurement unit and the agricultural and marine products environment information measurement unit via the external transmission communication unit. This is achieved by a warehouse-related information management program for realizing a function of displaying the above-mentioned environmental information on the display unit of the management terminal of the warehouse.

As described above, according to the present invention, even when a large number of rice bags or the like are arranged in a warehouse for agricultural and marine products such as rice, the installation position of the measuring unit such as a sensor can be determined by using a power-saving communication device. Advantages of being able to provide a warehouse information management system, a warehouse information management system control method, and a warehouse information management program that can reliably acquire information such as temperature and humidity inside the warehouse without being restricted and incurring costs. There is.

It is the schematic which shows the main structure of the warehouse information management system 1 which concerns on this invention. It is a schematic explanatory drawing which shows the warehouse W of FIG. It is a schematic block diagram which shows the main structure of the mobile terminal 20 shown in FIG. It is a schematic block diagram which shows the main structure of PC10 shown in FIG. It is a schematic block diagram which shows the main configuration of the management server 100 shown in FIG. FIG. 5 is a schematic block diagram showing a main configuration of the “server-side first various information storage units 110” of FIG. FIG. 5 is a schematic block diagram showing a main configuration of the “second server-side information storage unit 120” of FIG. FIG. 5 is a schematic block diagram showing a main configuration of the “third server-side information storage unit 130” of FIG. FIG. 5 is a schematic block diagram showing a main configuration of the “fourth various information storage units 140 on the server side” of FIG. FIG. 5 is a schematic block diagram showing a main configuration of the “server-side fifth various information storage units 150” of FIG. FIG. 5 is a schematic block diagram showing a main configuration of the “sixth various information storage units 160 on the server side” of FIG. It is a schematic flowchart which shows the main process of automatic diary creation. It is a schematic flowchart which shows the automatic temperature adjustment and the alarm generation process. It is a schematic flowchart which shows the grain storage pest alarm generation process. This is an example of a screen displayed on the PC side display 13 in ST14.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings and the like.
Since the embodiments described below are suitable specific examples of the present invention, various technically preferable limitations are attached, but the scope of the present invention particularly limits the present invention in the following description. Unless otherwise stated, the present invention is not limited to these aspects.

(Main configuration of warehouse information management system 1)
FIG. 1 is a schematic view showing a main configuration of, for example, a warehouse information management system 1 which is a warehouse-related information management system according to the present invention.
The system 1 is a system for managing the state of, for example, rice, which is an agricultural and marine product stored in the warehouse W shown in FIG.
Specifically, the system 1 is a warehouse-related information management device installed in the management company M that manages the state of rice, for example, the management server 100, the office O in charge of managing the warehouse W, and the like. It has, for example, a PC 10 which is a management terminal to be used, and, for example, a mobile terminal 20 which is a management terminal possessed by a person in charge of managing the warehouse W.

Of these, as shown in FIG. 1, the warehouse W includes, for example, a gateway 30 which is a communication unit for external transmission. The warehouse W is configured to communicate with the outside via the gateway 30.
Further, the warehouse W is provided with, for example, a warehouse front room X, which is a preparation area for bringing rice or the like into the warehouse W.
Specifically, in this warehouse front room X, rice and the like are prepared to be carried into the warehouse W, and then carried into and stored in the warehouse W.
Then, as shown in FIG. 1, the gateway 30 and the mobile terminal 20 are configured to be able to communicate with the management server 100 via the base station 2 and the Internet network 3.
Further, the PC 10 has a configuration capable of communicating with the management server 100 via the Internet network 3, and the management server 100 has a configuration capable of communicating with the PC 10, the gateway 30, and the mobile terminal 20 via the Internet network 3. ing.

(Main configuration of warehouse W)
FIG. 2 is a schematic explanatory view showing the warehouse W of FIG. 1 and the warehouse front room X thereof.
As shown in FIG. 2, the warehouse W has, for example, a side of about 30 m square, a height of 8 m, and a frontage of about 4 m, and about 60 kg of rice can be stored in the warehouse W. A large number of rice bags 40 can be stacked and arranged.
As shown in FIG. 2, the rice bag 40 is made of a deformable and flexible material such as paper so that the bags can be arranged without gaps.

The rice placed in the warehouse W is preferably stored at about 15 ° C. and at an appropriate humidity in order to maintain its quality. Therefore, in the warehouse W, for example, an environmental information measuring unit for measuring temperature and humidity, which is environmental information in the warehouse, and an environmental information measuring unit in the warehouse, for example, an upper layer thermo-hygrometer 31 and a lower layer. A thermo-hygrometer 32 is arranged.
Of these, the upper layer thermo-hygrometer 31 is installed in the upper layer of the warehouse W, for example, on the wall of the warehouse W about 1.5 m above the uppermost stage of the rice bag 40 stored in the warehouse W.
The upper layer thermo-hygrometer 31 has a configuration capable of measuring the temperature and humidity of the upper layer portion in the warehouse W and transmitting the measurement information to the gateway 30.

Further, the lower layer thermo-hygrometer 32 is installed on the lower layer of the warehouse W, for example, on the wall of the warehouse W at a portion about 1.5 m above the floor surface of the warehouse W.
The lower layer thermo-hygrometer 32 is configured to measure the temperature and humidity of the lower layer portion in the warehouse W and transmit the measurement information to the gateway 30.

Further, in the warehouse front chamber X of FIG. 2, there are an environmental information measurement unit and a preparation area environmental information measurement unit that measure the temperature and humidity in the warehouse front chamber X and transmit the measurement information to the gateway 30, for example, a warehouse. A pre-room temperature hygrometer 34 is installed.
On the other hand, outside the warehouse W and the warehouse front chamber X, which are external regions, for example, an environmental information measuring unit that measures the temperature and humidity outside the warehouse W and the warehouse front chamber X and transmits the measurement information to the gateway 30. For example, an external temperature / humidity meter 33, which is an external area information measuring unit, is installed.

Further, as shown in FIG. 2, in the rice bag 40, for example, six grain temperature and humidity meters 41 to 46 are arranged as an agricultural and marine product environmental information measuring unit for measuring the temperature and humidity in the rice bag 40. ..
The grain temperature / humidity meter 41 and the like are inserted into the rice bag 40 and have a measuring unit 41b for measuring the internal temperature and humidity, and a display surface 41a arranged on the surface of the rice bag 40 for displaying the temperature and the like. ..

Further, the grain temperature / humidity meters 41 to 46 are installed in different rice bags 40. For example, the grain temperature / humidity meters 43 and 46 are arranged in the second stage from the bottom of the rice bags 40, which are stacked in the warehouse W, and about 30 cm from the floor surface.
Further, the grain temperature / humidity meters 42 and 45 are arranged in the middle portion of the rice bag 40 which is arranged so as to be stacked in the warehouse W.
Then, the grain temperature / humidity meters 41 and 44 are arranged in the upper portion of the rice bags 40, for example, the second from the top, which are arranged in the warehouse W in an overlapping manner.
The grain temperature / humidity meters 41 to 46 are configured to measure the temperature and humidity in the rice bag 40 and transmit the measurement information to the gateway 30.

The upper layer temperature / humidity meter 31, the lower layer temperature / humidity meter 32, the outdoor temperature / humidity meter 33, the grain temperature / humidity meter 41 to 46, and the room temperature / humidity meter 34 in front of the warehouse each receive the temperature and humidity information measured by themselves. In addition to transmitting, it also has a function as a "repeater" that receives signals transmitted by other thermo-hygrometers and amplifies the signals.

In order to function in this way, each thermo-hygrometer 31 and the like have the same "SSID (Service Set Identifier)" and channel as the communication device.
Further, each thermo-hygrometer 31 and the like has a battery and uses a 920 MHz band capable of transmitting with the electric power of the battery.

With this configuration, it is effective in the following cases.
For example, since the grain temperature / humidity meter 46 shown in FIG. 2 is covered with a rice bag 40, it may be difficult to transmit the measured temperature and humidity information to the gateway 30.
In this regard, in the present embodiment, the signal from the grain temperature / humidity meter 46 is received by the grain temperature / humidity meter 45 in the vicinity where it can be received. At this time, since the grain temperature / humidity meter 45 also functions as a repeater, the signal from the grain temperature / humidity meter 46 is amplified.
After that, the amplified signal of the grain temperature / humidity meter 46 is transmitted to the gateway 30 via, for example, the grain temperature / humidity meter 44 or the like.

As described above, in the present embodiment, the upper layer temperature / humidity meter 31, the lower layer temperature / humidity meter 32, the outside temperature / humidity meter 33, the grain temperature / humidity meters 41 to 46, and the pre-warehouse room temperature / humidity meter 34 are respectively. It functions as a repeater that amplifies signals from other thermo-hygrometers 31 and the like.
Therefore, the signal transmitted from each thermo-hygrometer 31 or the like is always automatically connected to another thermo-hygrometer 31 or the like having strong radio waves, and the signal is transmitted from each thermo-hygrometer 31 or the like without interruption in the middle. The signal is received on the gateway 30.

That is, in the present embodiment, the above-mentioned upper layer temperature / humidity meter 31, lower layer temperature / humidity meter 32, outside temperature / humidity meter 33, grain temperature / humidity meter 41 to 46, and warehouse front room temperature / humidity meter 34 are repeaters. As a whole, including the gateway 30, it constitutes a "multi-hop wireless mesh network".
Therefore, as described above, for example, even if the radio wave of the grain temperature / humidity meter 46 is at a position where it is difficult to reach the gateway 30, the signal can be reliably transmitted by the shortest route.

Further, the operating frequencies of the upper layer temperature / humidity meter 31, the lower layer temperature / humidity meter 32, the outside temperature / humidity meter 33, the grain temperature / humidity meters 41 to 46, and the pre-warehouse room temperature / humidity meter 34 in the present embodiment are 920 MHz. However, the present invention is not limited to this, and may be 900 MHz to 1 GHz.
Within this range, power saving enables communication with batteries. Further, within this range, the radio wave reaches about 1 km and the radio wave easily wraps around, so that the signal can be transmitted to the gateway 30 with higher accuracy.
On the other hand, in the 2.4 GHz band, it is difficult for radio waves to wrap around, and the signal may be interrupted in the middle. Further, the 400 MHz band saves power, but there is a risk that radio waves may not reach.

By the way, for example, cameras 50 and 51, which are imaging devices, are installed in the warehouse W and the warehouse front room X in FIG. 2, respectively.
A plurality of the cameras 50 and 51 may be arranged.
The data (information) captured by the cameras 50 and 51 is transmitted wirelessly or by wire to the gateway 30 of FIG.

Further, as shown in FIG. 2, an air conditioner (air conditioner) 55 is arranged in the warehouse W, and the temperature in the warehouse W is maintained at, for example, about 15 ° C.

A GPS device 56 is also arranged in the warehouse W of the present embodiment.
This GPS device 56 is a Global Positioning System (Global Positioning System), which is a system that knows the current position (latitude, longitude) of the device by receiving signals from several artificial satellites with a GPS receiver. is there.
Therefore, the GPS device 56 wirelessly or wiredly transmits information such as the latitude and longitude of the warehouse W to the gateway 30 of FIG.

As described above, the information such as the temperature and humidity in the warehouse W and the warehouse front room X is transmitted to the management server 100 in FIG. 1 via the gateway 30 in FIG.

The management server 100, PC10, mobile terminal 20, and the like of the warehouse information management system 1 of FIG. 1 have a computer, and include a CPU (Central Processing Unit), a RAM (Random Access Memory), a ROM (Read Only Memory), a hard disk, and the like. Has and is connected via a bus.

(Main configuration of mobile terminal 20)
FIG. 3 is a schematic block diagram showing a main configuration of the mobile terminal 20 shown in FIG.
As shown in FIG. 3, the mobile terminal 20 has a "mobile terminal side control unit 21", and the control unit 21 is a "mobile terminal side communication device 22" and a display unit shown in FIG. 3, for example, " It is configured to control the "touch panel 23" and the like.

Here, the "touch panel 23" is an electronic component that combines, for example, a display and a position input device, which is a display unit, and is an input device that allows a user to input various information by touching the display on the display.
In addition, the control unit 21 is also configured to control the “various information storage units 24 on the mobile terminal side” shown in FIG.

(Main configuration of PC10)
FIG. 4 is a schematic block diagram showing a main configuration of the PC 10 shown in FIG.
As shown in FIG. 4, the PC 10 has a "PC side control unit 11", and the control unit 11 is a "PC side communication device 12" and a display unit shown in FIG. 4, for example, a "PC side display 13". "The various information input devices 14 on the PC side", the "various information storage units 15 on the PC side" and the like are controlled.

(Main configuration of management server 100)
FIG. 5 is a schematic block diagram showing a main configuration of the management server 100 shown in FIG.
As shown in FIG. 5, the management server 100 has a "server-side control unit 101", and the control unit 101 includes "server-side communication device 102" and "server-side various information input devices 104" shown in FIG. , For example, the server-side display 103, which is a display unit, is controlled.

Further, the control unit 101 includes "server-side first various information storage units 110", "server-side second various information storage units 120", and "server-side third various information storage units 130" shown in FIG. , "Server side 4th various information storage units 140", "Server side 5th various information storage units 150", "Server side 6th various information storage units 160" and the like are also controlled.
6 to 11 are "server-side first various information storage units 110", "server-side second various information storage units 120", and "server-side third various information storage units 130", respectively. , "Server side 4th various information storage units 140", "Server side 5th various information storage units 150", and "Server side 6th various information storage units 160" are schematic block diagrams showing the main configurations. .. These contents will be described later.

12 to 14 are schematic flowcharts showing a main operation example of the "warehouse information management system 1" according to the present embodiment of FIG.
Further, FIG. 12 is a schematic flowchart showing a main process of creating an automatic diary.
In the present embodiment, the "diary" related to the warehouse W in FIG. 1 is automatically created instead of the conventional manual input. Specifically, it is as follows.

First, in step 1 of FIG. 12 (hereinafter referred to as “ST”) 1, the management server 100 changes from the “gateway 30” of the warehouse W to the upper thermo-hygrometer 31, the lower thermo-hygrometer 32, and the grain thermo-hygrometer of the warehouse W. Temperature and humidity information of 44, 45, 46 (in FIG. 2, 41 to 43 grain temperature and humidity meters are also present, but the description thereof will be omitted below for convenience of explanation), the warehouse front room of the warehouse front room X. The temperature / humidity information of the temperature / humidity meter 34 and the temperature / humidity information of the outside temperature / humidity meter 33 are received and stored in the “warehouse-specific temperature / humidity information storage unit 111” of FIG.
For example, temperature / humidity information every 10 minutes is acquired and stored.

Then, the process proceeds to ST2. In ST2, the “average temperature / humidity information generation processing unit (program) 112” of FIG. 6 operates, and based on the “warehouse-specific temperature / humidity information” of the “warehouse-specific temperature / humidity information storage unit 111”, the warehouse W “warehouse-specific”. "Average temperature / humidity information" is generated and stored in the "warehouse-specific average temperature / humidity information storage unit 121" in FIG. 7.
With the above, information on the average temperature and humidity of each thermo-hygrometer 31 and the like for each day is generated.

Then, the process proceeds to ST3. In ST3, the “warehouse-specific diary information generation processing unit 122” of FIG. 7 operates, and the warehouse-specific diary information is generated by referring to the “warehouse-specific average temperature / humidity information” of the “warehouse-specific average temperature / humidity information storage unit 121”. Then, it is stored in the “warehouse-specific diary information storage unit 131” of FIG.
In this step, a diary of the warehouse W in which the daily average temperature and humidity information of each temperature and humidity meter 31 of the warehouse W of FIG. 1 and the like are automatically entered can be automatically created.

Then, the process proceeds to ST4. In ST4, when the person in charge of the warehouse W operates the PC 10 and requests the diary display, the management server 100 refers to the “warehouse-specific temperature / humidity information storage unit 111” in FIG. The information is selected and displayed on the PC side display 13 of the PC 10.

Therefore, the person in charge of the warehouse W can acquire the average daily temperature and humidity information of the warehouse W without entering or inputting the temperature and humidity information by himself / herself, so that he / she can avoid forgetting to attach the information. be able to.

Then, the process proceeds to ST5. In ST5, on the PC side display 13 of the PC 10, "visit time", "quality control information", "moisture control", "security management", "yes (stacked state) status", and "inside and outside the refrigerator" shown in FIG. Input screens such as "cleaning status", "measures against insects and rodents", and "other articles" are displayed.
Then, if information is input from the person in charge or the like, the input data is stored in the “warehouse-specific diary information storage unit 131” of FIG.

Examples of "quality control information" include air conditioner setting, ventilation control, low temperature operation, mold / skin slippage (discoloration), and rodent damage.
Examples of "moisture management" are, for example, measurement date, number of measurements, measured value, warehouse number, lot, and the like.
Examples of "security management" include unlocking time, locking time, key payment time, security bell setting time, and the like.
Examples of "measures against insect rat damage" include setting, inspection, and replacement of monitoring traps (adhesive sheets, etc.).

As described above, since it is possible to easily and quickly create the "diary" information of the warehouse, which has been complicated to create in the past, it is possible to prevent forgetting to keep the "diary".

(Automatic temperature adjustment and alarm generation process)
FIG. 13 is a schematic flowchart showing an automatic temperature adjustment and alarm generation process.
FIG. 13 describes the adjustment of the temperature in the warehouse W, the operation when the temperature in the warehouse W becomes abnormal, and the like.
First, in ST11 of FIG. 13, the “automatic temperature adjustment processing unit (program) 141” of FIG. 9 operates, and the “temperature / humidity information by warehouse” of the “warehouse-specific temperature / humidity information storage unit 111” of FIG. 6 is referred to. When the temperature of the upper layer temperature ℃ and the temperature of the lower layer temperature ℃ in the warehouse W deviate from the control range, the signal for adjusting the cooling, heating, etc. of the air conditioner 55 of the warehouse W is sent to the warehouse W. It is transmitted to the air conditioner 55.

Further, in the present embodiment, automatic adjustment is used, but even if a message requiring adjustment of the air conditioner 55 is transmitted to the mobile terminal 20 or the like shown in FIG. 1 without automatically adjusting the air conditioner 55. I do not care.

Then, the process proceeds to ST12. In ST12, when the temperature does not stay within the predetermined temperature range of 15 ° C. or the predetermined temperature range continues for a predetermined time even by the adjustment signal of the air conditioner 55, an abnormal temperature alarm of the warehouse is issued to the mobile terminal 20 and / or the PC 10. Send.
Specifically, the “alarm notification processing unit (program) 142” of FIG. 9 operates, and the determination is made with reference to the “warehouse-specific temperature / humidity information” of the “warehouse-specific temperature / humidity information storage unit 111” of FIG.

This "when the temperature does not stay within the predetermined temperature range or 15 ° C. continues for a predetermined time" is, for example, when the temperature inside the warehouse rises due to forgetting to close the door of the warehouse W. Notify an alarm in such cases.

Therefore, when the person in charge of the warehouse W or the like has a temperature rise in the warehouse W due to the door being opened or the like, the person in charge of the warehouse W can promptly detect the fact by visually recognizing the mobile terminal 20 or the PC 10. You can know.

Then, the process proceeds to ST13. In ST13, the “alarm generation status display unit (program) 143” in FIG. 9 operates, and with reference to the “temperature / humidity information storage unit 111 for each warehouse” in FIG. 6, the “internal upper layer temperature ° C.” on the day when the alarm is transmitted "Internal upper layer humidity%" "Internal lower layer temperature ° C" "Internal lower layer humidity%" "Grain temperature / humidity meter 44 grain temperature ° C" "Grain temperature / humidity meter 44 grain humidity%" "Grain temperature / humidity meter 45" Generates hourly temperature and humidity transition data for "grain temperature ° C", "grain humidity% of grain temperature / humidity meter 45", "grain temperature ° C of grain temperature / humidity meter 46", and "grain humidity% of grain temperature / humidity meter 46". Then, as "hourly temperature and the like transition information", it is stored in the "hourly temperature and the like transition information storage unit 151" of FIG.

Then, the process proceeds to ST14. In ST14, the “time-by-hour temperature transition information” of FIG. 10 is displayed on the PC-side display 13 of the PC 10, and a screen for entering the corresponding treatment information is also displayed.
FIG. 15 is an example of a screen displayed on the PC side display 13 in ST14.
As shown in FIG. 15, on the PC side display 13, for example, one day (June 3, 2019) is divided into 24 hours, and the transition of the upper layer temperature and the lower layer temperature of the warehouse W at each time is displayed. There is.
At this time, the upper layer temperature and the lower layer temperature at each time are, for example, the maximum temperatures within one hour.

In this way, when an alarm is sent to the mobile terminal 20 or the like due to forgetting to close the door, for example, more detailed information (hourly) is displayed on the screen at the same time, unlike the diary (average temperature of the day). (Temperature transition, etc.) is displayed, so that the person in charge or the like can quickly grasp detailed information such as the start time of the occurrence of an abnormality or the like.
Further, FIG. 15 merely shows the temperature in the warehouse W as an example, and information such as humidity and the temperature and humidity of the grain temperature / hygrometer may be displayed together or instead.

Further, on the same screen, as shown in "Details of abnormality notification (temperature ° C.)" in FIG. 15, a "screen for entering countermeasure information" is displayed.
Specifically, as shown in FIG. 15, "entry fields" such as "correspondent", "correspondence content", "response time", and "time before response" are displayed, and the person in charge or the like needs to do so. It is structured so that you can fill in accordingly.

Then, the process proceeds to ST15. If there is an entry in the entry field in ST15, proceed to ST16.
In ST16, the input corresponding action information is stored in the "other articles" of the "warehouse-specific diary information" of the "warehouse-specific diary information storage unit 131" of FIG.

Therefore, in the present embodiment, the state such as the temperature of the warehouse W can be confirmed in detail, and the corresponding measures taken by the person in charge or the like can be recorded easily and quickly.

(Grain pest alarm generation process)
FIG. 14 is a schematic flowchart showing a grain storage pest alarm generation process.
In the process of FIG. 14, for the insect species (Indianmeal moth, Maize weevil, etc.) that are likely to occur in the warehouse W, in the warehouse front chamber X, and outside these, the predicted information on the developmental stages (eggs, larvae, pupae, etc.) is obtained. Generate.

First, in ST21, the "effective integrated temperature constant calculation processing unit (program) 161" of FIG. 11 operates, and the "effective integrated temperature constant calculation formula" of the "effective integrated temperature constant calculation formula storage unit 152" of FIG. 10 is referred to. To do.
This calculation formula is "D (t-T ₀ ) = K", of which "D" is "growth days (days)" and "t" is "average daily temperature (° C.)", "T". _“0 ” indicates “development zero (° C.)”, and “K” indicates “effective integrated temperature constant (day / ° C.)”.

Then, the processing unit 161 has a daily temperature of the upper layer in the refrigerator (daily average) and a temperature of the lower layer in the refrigerator (1 day) of the “diary information by warehouse” of the “diary information storage unit 131 by warehouse” in FIG. Let the average of the average) be "t" of the same formula, and set the "development stage (for example," egg ") of the" insect species (for example, "Insects") of the "insect type effective integrated temperature information storage unit 153" in FIG. ")""Growth zero point (for example, 9.9 ° C)" is reduced. However, the subtracted value (in the above formula, when the value of "t-T ₀ " takes a negative value, it is treated as zero (0).
The same treatment is performed for the warehouse front room temperature ° C (daily average) and the warehouse outside temperature ° C (daily average).

This is calculated based on the average of the temperature of the upper layer in the refrigerator (daily average) and the temperature of the lower layer in the refrigerator (daily average) of each day, and the value obtained by multiplying this by the number of days is used as the "calculation result value". It is stored in the "calculation result numerical storage unit 162" of FIG.
Further, this calculation is performed for all "development zeros" of the "effective integrated temperature information by insect type" in FIG.
The same treatment is performed for the warehouse front room temperature ° C (daily average) and the warehouse outside temperature ° C (daily average).
Here, "growth zero point" is an example of zero point temperature information, and "growth days" is an example of elapsed time information.

Then, the process proceeds to ST22. In ST22, the “effective integrated temperature applicable determination processing unit (program) 163” of FIG. 11 operates, and the numerical value of the “calculation result numerical storage unit 162” of FIG. 11 is the “insect type effective integrated temperature information storage unit” of FIG. It is determined whether or not the "effective integrated temperature constant" of the "effective integrated temperature information by insect type" of "153" has been reached.
Then, when it has reached, it is determined that there is a high possibility that the state is described in the corresponding "development stage", and a display to that effect is displayed on the touch panel 23 or the PC side display 23 of the mobile terminal 20 or PC 10 related to the warehouse W. ..
At this time, the displayed "eggs", "larvae", "pupae", etc. are examples of "insect species activity prediction information".

Specifically, the value obtained by subtracting "9.9", which is the "zero growth point (° C)" of the insect species "Indianmeal moth", from the average daily temperature (° C) of the warehouse W and multiplying by the number of days is ". When the effective integrated temperature constant (day / ° C) reaches "79.92", the developmental stage of the same insect species is predicted to be "larva".

As described above, in the present embodiment, since the activity prediction information of the insect species generated in the warehouse W, the warehouse front room X and the outside thereof can be notified to the person in charge or the like, the person in charge or the like is appropriate. Measures against the insect species can be implemented at the same time.
In particular, for example, even if it is predicted that an insect species will not occur in the warehouse W, it may be predicted that it will occur in the warehouse front chamber X or the like.
In this case, by opening the door in the warehouse W, there is a risk that insect species invade the warehouse W from the warehouse front room X. Therefore, by providing the person in charge of the warehouse W with the activity prediction information of the insect species in the warehouse front room X, it is possible to inform the person in charge of the danger of the insect species invading the warehouse W.

Further, in the present embodiment, as shown in FIG. 2, since the warehouse W is provided with the GPS device 56, the latitude and longitude of the warehouse W are determined, and the climate correction based on the area (for example, based on the latitude and longitude information) is performed. , Hokkaido, Okinawa, etc.) may be carried out for the "effective integrated temperature constant (day / ° C.)" of the "insect-type effective integrated temperature information storage unit 153" in FIG.
As a result, the accuracy of "insect species activity prediction information" will be further improved.

Further, the camera 50 or the like in FIG. 1 identifies the insect species in the warehouse W and the warehouse front chamber X, and based on the information such as the temperature at the time of imaging thereof, the “insect type effective integrated temperature information storage unit 153” in FIG. "Effective integrated temperature constant (day / ° C)" may be corrected.
As a result, the accuracy of "insect species activity prediction information" will be further improved.
Further, unlike the present embodiment, a camera is installed outside the warehouse W and the warehouse front room X to identify insect species such as outside the warehouse and correct the "effective integrated temperature constant (day / ° C.)". It doesn't matter.

Further, when rice or the like having a high grain temperature is stored in the warehouse W shown in FIG. 2, the growth of insects lurking inside the rice bag 40 becomes an environment in the warehouse W whose temperature is lower than that inside the rice bag 40 or the like. It may be faster than the lurking insects.
Therefore, when the grain temperature at the time of delivery to the warehouse W is high, even if the "effective integrated temperature constant (day / ° C.)" of the "insect type effective integrated temperature information storage unit 153" in FIG. 10 is corrected accordingly. I do not care.
As a result, the accuracy of "insect species activity prediction information" will be further improved.

Further, by installing a surveillance camera for mice in the warehouse W of FIG. 2, it is possible to reliably grasp the occurrence of mice in the warehouse W.

In the above-described embodiment, the case where it is realized as an apparatus has been described as an example, but the present invention is not limited to this, and as a program that can be executed by a computer, a magnetic disk (floppy (registered trademark)). ) Disks, hard disks, etc.), optical disks (CD-ROM, DVD, etc.) Photomagnetic disks (MO), semiconductor memory, and other storage media may be stored and distributed.

Further, the storage medium may be any storage medium that can store the program and can be read by a computer. The storage format of the storage medium is not particularly limited.

Further, in order to realize this embodiment, an OS (operating system) running on the computer based on instructions of a program installed on the computer from a storage medium, MW (middleware) such as database management software and network software, etc. You may execute a part of each process of.

Further, the storage medium in the present invention is not limited to a medium independent of the computer, and also includes a storage medium in which a program transmitted by a LAN, the Internet, or the like is downloaded and stored or temporarily stored.

Further, the computer in the present invention may be a device consisting of one personal computer or the like, or a plurality of devices may be connected to a network, as long as each process in the present embodiment is executed based on a program stored in a storage medium. It may be a system or the like.

Further, the computer in the present invention is not limited to a personal computer, but includes a computing device, a microcomputer, and the like included in an information processing device, and is a general term for devices and devices capable of realizing the functions of the present invention by a program. ing.

The embodiment of the present invention has been described above. However, the present invention is not limited to the above embodiment, and various modifications can be made without departing from the scope of claims. The configuration of the above embodiment may be partially omitted or may be arbitrarily combined so as to be different from the above.

1 ... Warehouse information management system, 2 ... Base station, 3 ... Internet network, 10 ... PC, 11 ... PC side control unit, 12 ... PC side communication device, 13 ...・ PC side display, 14 ... PC side various information input devices, 15 ... PC side various information storage units, 20 ... mobile terminals, 21 ... mobile terminal side control units, 22 ... mobile terminals Side communication device, 23 ... Touch panel, 30 ... Gateway, 31 ... Upper layer thermo-hygrometer, 32 ... Lower layer thermo-hygrometer, 33 ... Outer temperature and humidity meter, 40 ... Rice bag, 41, 42, 43, 44, 45, 46 ... Grain temperature and humidity meter, 41a ... Display surface, 42a ... Measuring unit, 50 ... Camera, 55 ... Air conditioner ( Air conditioner), 56 ... GPS device, 100 ... management server, 101 ... server side control unit, 102 ... server side communication device, 103 ... server side display, 104 ... server side Various information input devices, 110 ... server-side first various information storage units, 120 ... server-side second various information storage units, 130 ... server-side third various information storage units, 140 ... -Server side 4th various information storage units, 150 ... Server side 4th various information storage units, 160 ... Server side 6th various information storage units

Claims (7)

A warehouse-related information management device that manages information about the warehouse that stores agricultural and marine products,
An external transmission communication unit that can communicate with the warehouse-related information management device and is located in the warehouse that stores the agricultural and marine products.
It has an environmental information measuring unit that measures at least environmental information about the inside of the warehouse and outside the warehouse.
The environmental information measurement unit includes an in-warehouse environmental information measurement unit that measures environmental information in the warehouse, and
It has an agricultural and marine product environmental information measuring unit that measures the environmental information of the agricultural and marine products stored in the warehouse.
The warehouse environment information measurement unit, the agricultural and marine products environment information measurement unit, and the communication unit for external transmission are configured to enable wireless communication with each other.
The warehouse environment information measurement unit and the agricultural and marine products environment information measurement unit are configured to function as repeaters for amplifying signals wirelessly received from each other.
The warehouse-related information management device receives the environmental information measured by the in-warehouse environmental information measuring unit and the agricultural and marine products environmental information measuring unit via the external transmission communication unit, and receives the received environmental information in the warehouse. A warehouse-related information management system characterized in that it is configured to be displayed on the display unit of the management terminal of. A multi-hop wireless mesh network is formed by the plurality of environmental information measuring units in the warehouse and the plurality of environmental information measuring units for agricultural and marine products.
The warehouse-related information management system according to claim 1, wherein each of the warehouse-related environmental information measuring units and each of the agricultural and marine products environmental information measuring units is 900 MHz to 1 GHz. The received environmental information is displayed as daily average information on the display unit of the management terminal of the warehouse, and is also displayed.
When it is determined that the environmental information is outlier information, the information for each hour of the day including the outlier information is also displayed on the display unit of the management terminal of the warehouse. The warehouse-related information management system according to claim 1 or 2. For environmental information in at least the warehouse inside the warehouse and outside the warehouse, and growth zero temperature information and elapsed time information for insect species that are likely to occur in at least one of the inside and outside the warehouse. The warehouse according to any one of claims 1 to 3, wherein activity prediction information of an insect species that occurs in at least one of the inside of the warehouse and the outside of the warehouse is generated based on the above. Related information management system. The outside of the warehouse of the warehouse-related information management system includes a preparation area for carrying the agricultural and marine products into the warehouse and an external area outside the preparation area, each of which includes preparation area environment information. The warehouse-related information management system according to claim 4, wherein a measurement unit and an external area environmental information measurement unit are installed. A warehouse-related information management device that manages information about a warehouse that stores agricultural and marine products, an external transmission communication unit that can communicate with the warehouse-related information management device and is located in the warehouse that stores agricultural and marine products, and the inside of the warehouse. And the environment information measuring unit that measures at least the environment information about the inside of the warehouse among the outside of the warehouse, and the environment information measuring unit includes the environment information measuring unit inside the warehouse that measures the environment information inside the warehouse. A method for controlling a warehouse information management system, which includes an agricultural and marine product environmental information measuring unit for measuring environmental information of the agricultural and marine products stored in the warehouse.
The warehouse environment information measurement unit, the agricultural and marine products environment information measurement unit, and the communication unit for external transmission perform wireless communication with each other.
The warehouse environment information measurement unit and the agricultural and marine products environment information measurement unit also function as repeaters for amplifying signals wirelessly received from each other.
The warehouse-related information management device receives the environmental information measured by the in-warehouse environmental information measuring unit and the agricultural and marine products environmental information measuring unit via the external transmission communication unit, and receives the received environmental information in the warehouse. A control method for a warehouse-related information management system, which is characterized by displaying on the display unit of a management terminal. A warehouse-related information management device that manages information about a warehouse that stores agricultural and marine products, an external transmission communication unit that can communicate with the warehouse-related information management device and is located in the warehouse that stores agricultural and marine products, and the inside of the warehouse. And the environment information measuring unit that measures at least the environment information about the inside of the warehouse among the outside of the warehouse, and the environment information measuring unit includes the environment information measuring unit inside the warehouse that measures the environment information inside the warehouse. , A warehouse information management system having an agricultural and marine product environmental information measurement unit that measures environmental information of the agricultural and marine products stored in the warehouse.
The warehouse environment information measurement unit, the agricultural and marine products environment information measurement unit, and the communication unit for external transmission have a function of mutually performing wireless communication.
The warehouse environment information measurement unit and the agricultural and marine products environment information measurement unit function as repeaters for amplifying signals wirelessly received from each other.
The warehouse-related information management device receives the environmental information measured by the in-warehouse environmental information measuring unit and the agricultural and marine products environmental information measuring unit via the external transmission communication unit, and receives the received environmental information in the warehouse. A warehouse-related information management program for realizing the function of displaying on the display section of the management terminal.

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