JP6724600B2 - Operation management system for grain drying and preparation equipment - Google Patents

Description

The present invention relates to a grain drying and preparing facility .

Patent Document 1 discloses a technique in which the control units of a plurality of grain dryers and a mobile terminal (tablet) for management are communicatively connected via an offline controller, and the information of the grain dryer is transmitted to the mobile terminal for management. It is disclosed.

JP, 2016-105031, A

The off-line controller connected to the control unit of the grain dryer must be a dedicated product. Therefore, since the grain dryer already installed before the grain dryer corresponding to the offline controller cannot be connected to the mobile terminal for management for communication, the operation information cannot be displayed on the mobile terminal for management.

An object of the present invention is to be able to confirm the operation status with a management portable terminal even in a grain dryer that does not support a dedicated offline controller.

In order to solve this problem, the invention according to claim 1 is
A plurality of grain dryers (K1 to K4), a cooling tank (H) for storing grains discharged from the grain dryers (K1 to K4), and a rice hull sorter (M),
The plurality of grain dryers (K1 to K4) is a first grain dryer (K1) that the control unit (S) connects to the management mobile terminal (30) through a dedicated offline controller (31) so as to be communicable. , K2), and a second grain dryer (K3, K4) with which the control unit (S) and the dedicated off-line controller (31) cannot communicate with each other,
The first grain dryer (K1, K2) displays the driving information from the control unit (S) on the display screen of the mobile terminal (30), and at the same time, the grain dryer (K1, K1) is displayed on the mobile terminal (30). Enables remote control of dry operation of K2)
The second grain dryer (K3, K4) is equipped with an external sensor for detecting the presence or absence of operation, and the external sensor and the portable terminal (30) are an external sensor offline controller (32). A communication connection is made via, and the operation information of the grain dryer is displayed on the display screen of the mobile terminal (30) depending on whether or not the external sensor is detected.
The external sensor is an external air pressure sensor (35) attached to the exhaust side of the exhaust fan (5) of the second grain dryer (K3, K4) or the second grain dryer (K3, K4). External conveyance body drive detection sensor for detecting the driving of the conveyance body, and an external temperature sensor (36) for detecting an increase in temperature in the drying chamber (2) of the second grain dryer (K3, K4). Or an external fuel supply detection sensor (38) for detecting the supply of fuel to the combustion burner (17) of the second grain dryer (K3, K4),
When the external wind pressure sensor (35) detects the wind pressure of the exhaust fan (5) or the external conveyance body drive detection sensor detects the drive of the conveyance body, the display screen of the mobile terminal (30) indicates that the vehicle is operating. Is displayed,
When the external temperature sensor (36) detects an increase in temperature above the set value or the fuel supply detection sensor (38) detects the supply of fuel, a display during the dry operation is displayed on the display screen of the portable terminal (30). Made,
The first grain dryer (K1, K2) and the second grain dryer (K3, K4) are provided with a cooling tank (H) for storing grains discharged from the second grain dryer (K3, K4). ) An external grain discharge sensor (47) is attached to the grain discharge port, and the external grain discharge sensor (47) and the mobile terminal (30) are communicatively connected to each other via an offline controller. Depending on whether or not (47) is detected, the display screen of the mobile terminal (30) displays information on the discharge of grains from the second grain dryer (K3, K4),
An external grain discharge detection sensor (46) is attached to the grain discharge side of the cooling tank (H), and the external grain discharge detection sensor (46) and the mobile terminal (30) are connected for communication via an offline controller. However, it is characterized in that the display screen of the portable terminal (30) displays information on the discharge of the grain from the cooling tank (H) depending on whether or not the external grain discharge detection sensor (46) detects. It will be the operation management system of the grain drying and preparation equipment .

The present invention, common portable even in a dedicated first grain dryer that supports offline controller (K1, K2) and the second grain dryer that does not correspond to the dedicated offline controller (K3, K4) The driving status can be confirmed at the terminal (30) . For the second grain dryers (K3, K4) that do not support the dedicated offline controller, the sensor of the grain dryer does not have to be modified by using the external sensor, which is simple. Moreover, it is safe because it does not hinder the drying operation itself.
In addition, the operator who is remote from the first grain dryers (K1, K2) and the second grain dryers (K3, K4) can use the first grain dryers (K1, K2) and the second grain dryers. The operation status of (K3, K4) can be confirmed. Further, since the information of the external sensor of the second grain dryer (K3, K4) can be concentrated on the common mobile terminal (30) for management, the cost can be reduced.
Further, the discharge information of the grains from the second grain dryers (K3, K4) can be displayed on the mobile terminal 30 for management.
Further, the state of the cooling tank (H) can be grasped by the grain discharge detection sensor (46) detecting the grain discharge. In addition, it can be understood that the grain is being discharged, which means that the grain-sorting machine is in the hulling operation.

Grain dryer perspective view Figure explaining the inside of the grain dryer seen from the side Illustration explaining the inside of the grain dryer viewed from the front Diagram showing circulation mechanism Operation panel diagram Diagram showing operation management system for grain dryer Display screen of mobile terminal for management Control block diagram Diagram showing grain drying and preparation equipment

A basic structure of a grain dryer according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5.

A storage chamber 1 for storing grains and a drying chamber 2 for drying grains are provided in the box H. The drying chamber 2 is provided with a hot air chamber 3 through which hot air from the combustion burner 17 passes, a downflow passage 4 through which hot air and grains pass, and an exhaust air chamber 6 in which the hot air passing through the downflow passage 4 is sucked by an exhaust fan 5.

A rotary valve 7 for feeding the grains in the drying chamber 2 is provided below the drying chamber 2, and a lower spiral 8 for transporting the grains to the front side is provided below the rotary valve 7. A bucket 9a type elevator 9 for lifting grains is provided on the front side of the box H, and an upper spiral 10 for transferring the grains fried by the elevator 9 to the storage chamber 1 is provided on the top of the box H. A diffusion blade 15 for diffusing grains into the storage chamber 1 is provided on the transfer end side of the upper spiral 10. In the present embodiment, the lower helix 8, the elevator 9, the upper helix 10, the diffusion blade 15, and the rotary valve 7 are circulation type grain dryers that circulate grains, and the above-mentioned members for circulation. Are collectively called the circulation mechanism J. A dust exhaust fan 12 for sucking and discharging dust and the like from the grain conveyed by the upper spiral 10 is provided.

The elevator 9 is provided with a moisture meter 11 for measuring the moisture value of grain.

On the front side of the box H, an operation panel 13 having a control section S is provided. On the operation panel 13, a stake switch 20 for performing a stake operation for transferring the grain stuck in the stake hopper 14 attached to the elevator 9 to the storage chamber 1 by the elevator 9 and the upper spiral 10, and the exhaust fan 5. And a ventilation switch 21 for driving the circulation mechanism J to perform a circulation operation while ventilating the grain, a drying switch 22 for driving the combustion burner 17, the exhaust fan 5 and the circulation mechanism J to perform a grain drying operation, After the completion of the drying operation, the circulation mechanism J is driven, and the discharge switch 23 for switching the discharge shutter 16 at the upper part of the elevator 9 to the discharge side and discharging the stuck grain to the outside of the machine is provided.

Further, a stop switch 24 for stopping the stake-in operation, the ventilation operation, the drying operation, and the discharging operation is provided.

As shown in FIG. 8, the control unit S includes a wind pressure sensor 25 that detects the suction air of the exhaust fan 5 in the exhaust chamber 6, a hot air temperature sensor 26 that detects the hot air temperature in the hot air chamber 3, or various operation switches. The information of the moisture meter 11 is input, and operation control is performed based on the information.

Next, based on FIG. 6, regarding a system in which the control units S of a plurality of grain dryers are connected to a portable mobile terminal 30 for management such as a tablet by communication, and the operating information of the grain dryer is managed by the portable mobile terminal 30 for management. explain.

Among the plurality of grain dryers K1 to K4, the grain dryers K1 and K2 connect the control unit S and the management portable terminal 30 via a dedicated offline controller 31 so that they can communicate with each other. Then, the drying operation information, the stake-in operation information, the ventilation operation information, the discharge operation information, the grain moisture value, the remaining operation time, etc. are displayed on the display screen 30a of the mobile terminal for management. Then, various driving information is stored in the management portable terminal 30 so that the driving information can be managed at a later date.

The grain dryers K3 and K4 cannot communicate with the control unit S and the above-mentioned dedicated offline controller 31. Therefore, an external sensor and an offline controller 32 for the external sensor are provided in the grain dryers K3 and K4, and the detection information of the external sensor is transmitted to the management portable terminal 30.

There are several specific methods for the external sensor. For example, an external wind pressure sensor 35 is attached to the exhaust duct 34 attached to the exhaust side of the exhaust fan 5. When the wind pressure sensor 35 detects the exhaust air from the exhaust fan 5, based on the detection information, the display screen 30a of the mobile terminal 30 for management displays "running". However, since the detection by the external wind pressure sensor 35 only detects the ON and OFF of the operation of the exhaust fan 5, the detected information does not depend on the type of operation such as dry operation, ventilation operation or discharge operation. Although it cannot be specified, since it is certain that the car is driving, it is possible to display that fact. The external wind pressure sensor 35 can be attached to the exhaust side of the dust exhaust fan 12 in addition to the exhaust fan 5. As the external wind pressure sensor 35 of the present embodiment, for example, a type in which a detection plate rotates and a limit switch (not shown) detects when wind is received may be used.

Further, as the external sensor, a conveyance body drive detection sensor (not shown) that detects the drive of the conveyance system of the circulation mechanism J may be used. This is because, for example, an external current detector (not shown) is provided in the wiring of the circulation motor 19 of the circulation mechanism J, and when the current detector detects a current value equal to or higher than a set value, the drive motor 19 of the circulation mechanism J is detected. Is determined to be driving, and "running" is displayed on the display screen 30a of the management portable terminal 30.

As an example of the externally attached sensor 33, an externally attached temperature sensor 36 that detects a rise in temperature in the hot air chamber 3 may be provided. As a specific configuration of the temperature sensor 36, an outside air temperature sensor (not shown) that detects the outside air temperature and a hot air chamber temperature sensor (not shown) that detects the temperature of the hot air chamber 3 are combined and configured. That is, when the difference between the outside air temperature and the temperature of the hot air chamber expands beyond a predetermined value, it is determined that the drying operation is being performed, and that effect is displayed on the display screen 30a of the management portable terminal 30.

As an example of the external sensor, an external flow sensor 38 is attached to a fuel supply path (not shown) that connects the fuel tank 37 and the burner 17. As a result, when the flow sensor 38 detects the supply of fuel, it is possible to display a message "in a dry operation" on the display screen 30a of the management portable terminal 30.

It should be noted that by using any one of the external wind pressure sensor 35, the conveyance body drive detection sensor (not shown), the external temperature sensor 36, and the flow rate sensor 38 described above, it is possible to determine whether the vehicle is running or stopped. Alternatively, a plurality of sensors, for example, both the external wind pressure sensor 35 (or the conveyance body drive detection sensor) and the external temperature sensor 36 (or the flow rate sensor 38) may be used to perform an operation other than the dry operation. It is also possible to switch the display of "during operation" and the display of "during operation", which indicates (stretching, ventilation, discharge). Further, when the external temperature sensor 36 detects that the drying operation is being performed, but the external wind pressure sensor 35 does not detect the operation, it can be displayed that there is an abnormality.

By using the externally attached sensor, it is not necessary to modify the sensors and the like on the grain dryers K3 and K4 side, which is simple and safe without causing any trouble in the drying operation itself.

The information input to the management mobile terminal 30 is configured to be able to communicate with the management server 41, a personal mobile terminal 42 such as a smartphone, or the personal computer 43 via the Internet line 40. This allows an operator at a remote location from the grain dryers K1 to K4 to check the operating status of the grain dryers K1 to K4. Further, since the information of the external sensors of the plurality of grain dryers can be concentrated on the common management terminal, the cost can be reduced.

The personal mobile terminal 42 and the management mobile terminal 30 enable remote control of the drying operation of the grain dryers K1 and K2 via the dedicated offline controller 31, but regarding the offline controller for the external sensor, It only inputs sensor information. The direction of the arrow in FIG. 6 indicates the direction of communication.

FIG. 9 shows a grain drying/preparation facility, which includes a receiving hopper N for inputting harvested grains, a cooling tank H, a hulling/sorting machine M for hulling/sorting grains in the cooling/cooling tank, and a grain/hulled grain Equipped with a rice sorter B for selecting small rice.

Further, it is provided with a conveyor 44 that conveys the grain received by the receiving hopper N to the grain dryers K1 to K4 and conveys the grains discharged from the grain dryers K1 to K4 to the cooling tank H.

During the transportation from the grain dryers K1 to K4 to the cooling tank H, for example, an external grain transportation detection sensor 45 is attached to the discharge port of the transportation conveyor 44, and is managed via an offline controller (not shown) as described above. The mobile terminal 30 for communication is configured to be communicable. Similarly, an external grain discharge detection sensor 46 is attached to the discharge port of the cooling tank H.

When the grain conveyance detection sensor 45 detects the conveyance of grains, the display screen 30a of the mobile terminal 30 for management displays the grain supply. Further, when the grain discharge detection sensor 46 detects the discharge of grains, the display screen 30a of the management portable terminal 30 displays that the grains are being discharged (see FIG. 7). Thereby, the condition of the cooling tank H can be grasped. Further, the fact that the grain is being discharged can also be understood as that the hulling/sorting machine M is in the hulling operation. When both the grain conveyance detection sensor 45 and the grain discharge detection sensor 46 detect grain, either one of the detection information may be displayed with priority, or both may be displayed.

Note that an external grain discharge sensor 47 may be provided at the grain discharge ports of the grain dryers K3 and K4 to display grain discharge information on the management portable terminal 30.

5 fans (exhaust fan)
17 Combustion burner 30 Mobile terminal 30a Display screen 31 Dedicated offline controller 32 External offline controller 35 External wind pressure sensor 36 External temperature sensor 37 Fuel tank 38 Flow rate sensor 40 Internet line 41 Management server 42 Personal mobile terminal 45 Grain Transport Detection Sensor 46 Grain Emission Detection Sensor H Cooling Tank K1 K2 Grain Dryer K3 K4 Grain Dryer S Controller

Claims (1)

A plurality of grain dryers (K1 to K4), a cooling tank (H) for storing grains discharged from the grain dryers (K1 to K4), and a rice hull sorter (M),
The plurality of grain dryers (K1 to K4) is a first grain dryer (K1) that the control unit (S) connects to the management mobile terminal (30) through a dedicated offline controller (31) so as to be communicable. , K2), and a second grain dryer (K3, K4) with which the control unit (S) and the dedicated off-line controller (31) cannot communicate with each other,
The first grain dryer (K1, K2) displays the driving information from the control unit (S) on the display screen of the mobile terminal (30), and at the same time, the grain dryer (K1, K1) is displayed on the mobile terminal (30). Enables remote control of dry operation of K2)
The second grain dryer (K3, K4) is equipped with an external sensor for detecting the presence or absence of operation, and the external sensor and the portable terminal (30) are an external sensor offline controller (32). A communication connection is made via, and the operation information of the grain dryer is displayed on the display screen of the mobile terminal (30) depending on whether or not the external sensor is detected.
The external sensor is an external air pressure sensor (35) attached to the exhaust side of the exhaust fan (5) of the second grain dryer (K3, K4) or the second grain dryer (K3, K4). External conveyance body drive detection sensor for detecting the driving of the conveyance body, and an external temperature sensor (36) for detecting an increase in temperature in the drying chamber (2) of the second grain dryer (K3, K4). Or an external fuel supply detection sensor (38) for detecting the supply of fuel to the combustion burner (17) of the second grain dryer (K3, K4),
When the external wind pressure sensor (35) detects the wind pressure of the exhaust fan (5) or the external conveyance body drive detection sensor detects the drive of the conveyance body, the display screen of the mobile terminal (30) indicates that the vehicle is operating. Is displayed,
When the external temperature sensor (36) detects an increase in temperature above the set value or the fuel supply detection sensor (38) detects the supply of fuel, a display during the dry operation is displayed on the display screen of the mobile terminal (30). Made,
The first grain dryer (K1, K2) and the second grain dryer (K3, K4) are provided with a cooling tank (H) for storing grains discharged from the second grain dryer (K3, K4). ) An external grain discharge sensor (47) is attached to the grain discharge port, and the external grain discharge sensor (47) and the mobile terminal (30) are connected by communication via an offline controller, and the external grain discharge sensor is connected. Depending on whether or not (47) is detected, the display screen of the mobile terminal (30) displays information on the discharge of grains from the second grain dryer (K3, K4),
An external grain discharge detection sensor (46) is attached to the grain discharge side of the cooling tank (H), and the external grain discharge detection sensor (46) and the mobile terminal (30) are connected for communication via an offline controller. However, it is characterized in that information on the discharge of grains from the cooling tank (H) is displayed on the display screen of the portable terminal (30) depending on the presence or absence of the detection of the external grain discharge detection sensor (46). Operation management system for grain drying and preparation equipment .

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