JP7126339B2 - Work information display system - Google Patents

Description

TECHNICAL FIELD The present invention relates to a work information display system including a work information acquisition unit that acquires work information of an entire work section.

As a work machine including the work information acquisition unit as described above, for example, one described in Patent Document 1 is already known. This working machine (“combine” in Patent Document 1) includes a work information acquisition unit (“weighing machine” in Patent Document 1) that acquires the grain yield of the entire field.

JP-A-11-53674

Here, an operation unit such as a switch is provided in the work machine, and in response to a request from the worker via this operation unit, the work information of the entire work section, such as the grain yield of the entire field as described above, is displayed. It is conceivable to construct a work information display system provided with a display for displaying. According to this work information display system, the worker can display the work information of the entire work section on the display section by operating the operation section provided in the work machine.

However, with this configuration, it is necessary to operate the operation unit in order to confirm the work information of the entire work section. Therefore, if the worker is not familiar with the operation of the work machine, it is conceivable that the display section may display information different from the information to be displayed by operating the operation section erroneously. Alternatively, a situation may be assumed in which the worker does not know that it is necessary to operate the operation unit and cannot check the work information of the entire work section.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a work information display capable of reliably displaying work information for the entire work section at the optimum timing on a display unit even if the worker is not familiar with operating a work machine. It is to provide a system.

A feature of the present invention is
a work information acquisition unit that acquires farm work information for the entire field ;
a work end detection unit that detects the end of farm work by the agricultural machine;
a display unit capable of displaying the farm work information;
a display control unit that displays the farm work information on the display unit when the work end detection unit detects the end of the farm work by the agricultural machine ;
a position information acquisition unit that acquires position information of the agricultural work machine;
Based on the position information of the agricultural work machine acquired by the position information acquisition unit, the work width of the working device of the agricultural work machine, and the ON/OFF state of a work clutch that turns power transmission to the work device on and off. a worked range calculation unit that calculates a range of completed farm work in the field;
a work done determination unit that determines whether or not farm work has been completed for the entire field based on the result of calculation by the work done range calculation unit;
When the work completion determination unit determines that the farm work has been completed in the entire field, the work end detection unit detects the completion of the farm work by the agricultural machine .

The optimum timing for displaying the farm work information of the entire field on the display unit is when the farm work of the farm work machine is finished. If the farm work information is displayed on the display unit at this timing, the worker can immediately confirm the farm work information related to the farm work that has been performed up to that point.

Here, according to the present invention, the farm work information is displayed when the work end detection unit detects the end of the farm work of the farm work machine. Thereby, it is possible to realize a configuration in which farm work information of the entire field is displayed on the display unit when the farm work of the farm work machine is finished.

Moreover, according to the present invention, the operator does not need to perform a special operation to display farm work information on the display unit. That is, even if the operator is not proficient in operating the agricultural machinery, it is possible to reliably display the agricultural machinery information on the display unit.

Therefore, according to the present invention, even if the operator is not proficient in operating the agricultural machinery, it is possible to reliably display the agricultural work information of the entire field on the display section at the optimum timing. be.

In addition, the " agricultural work information" according to the present invention is information related to the agricultural work of the agricultural machinery.
Further, in general, in a field, the agricultural implement travels with the work clutch engaged, and the area through which the working device has passed is considered to have been worked. Then, when the farm work has been completed on the entire field, the farm work of the agricultural machine is completed.
Here, according to the above configuration, based on the transition of the position information of the agricultural work machine when the work clutch is in the on state and the working width of the work device, the agricultural work machine when the work clutch is in the on state is determined. It is possible to calculate the area through which the portion of the work device actually performing farm work has passed. The area calculated in this way is an area where farm work has been completed.
And according to said structure, when the area|region calculated in this way reaches the whole field, the structure which determines by the work completion determination part that the whole field has been worked can be implement|achieved.
This makes it possible to reliably detect the end of farm work by the farm work machine.

Furthermore, in the present invention,
When the work clutch is disengaged, the work end detection unit detects the end of farm work by the agricultural machine,
It is preferable that the display control section causes the display section to continue to display the agricultural work information for a predetermined period from the time when the work clutch is disengaged.

In general, when an agricultural implement is provided with a work clutch, the work clutch is changed from the on state to the off state when the farm work is finished.

Therefore, according to the above configuration, it is possible to reliably detect the completion of farm work by the farm work machine. Moreover, with the above configuration, the display section continues to display the farm work information for a predetermined period from the end of the farm work . Therefore, the worker can surely see the displayed farm work information.

Furthermore, in the present invention,
A tilt sensor that detects a tilt of the agricultural implement ,
It is preferable that the work end detection unit detects the end of farm work by the agricultural machine based on the detection result of the tilt sensor.

In general , when the agricultural work by the agricultural working machine is finished, the worker drives the agricultural working machine to the outside of the field. At this time, the agricultural implement climbs over the ridge at the edge of the field.

Here, according to the above configuration, the inclination sensor detects the inclination of the agricultural implement when the agricultural implement climbs over the ridge. Thus, the end of work of the agricultural implement is detected.

That is, according to the above configuration, it is possible to realize a configuration in which the end of the farm work by the farm work machine is detected when the farm work by the farm work machine is finished and the farm work machine climbs over the ridge.

This makes it possible to reliably detect the end of farm work by the farm work machine.

Furthermore, in the present invention,
a data value acquisition unit that acquires a data value related to the farm work information while the farm work machine is running in the field ;
a past data value acquisition unit that acquires a past data value, which is the data value acquired in farm work performed in the past in the field ;
a value range setting unit that sets a certain value range based on the past data values acquired by the past data value acquisition unit;
a data value determination unit that determines whether the data value acquired by the data value acquisition unit is included in the value range;
When the work clutch is disengaged and the data value determination unit determines that the data value acquired by the data value acquisition unit is included in the value range, the work end detection unit It is preferable to detect completion of farm work by the farm machine.

According to this configuration, when the data value is approximately the same as the value at the end of past farm work , it is possible to detect the end of farm work by the agricultural machine.

This makes it possible to reliably detect the end of farm work by the farm work machine.

1 is an overall view of a work information display system; FIG. It is a block diagram which shows the structure of a work information display system. 5 is a flow chart of collection display control.

EMBODIMENT OF THE INVENTION Hereinafter, the form for implementing this invention is demonstrated based on drawing.

[Overall configuration of work information display system]
As shown in FIG. 1 , the work information display system A includes a combine harvester 1 (corresponding to the “ agricultural machine” according to the present invention) and a management server 2 . The combine 1 and the management server 2 are configured to be able to communicate with each other. Then, the combine harvester 1 travels for harvesting in the farm field FI (corresponding to the “ field ” according to the present invention).

[Overall configuration of combine harvester]
As shown in FIG. 2, the combine 1 includes a control unit 3, an engine 4, a work clutch 5, a traveling device 6, a reaping unit 7 (corresponding to the "working device" according to the present invention), a threshing unit 8 ( (corresponding to a "work device"), a headlight 9, and a display unit 10.

Power output from the engine 4 is distributed to the work clutch 5 and the traveling device 6 . The travel device 6 is driven by power from the engine 4 . The combine 1 can be self-propelled by the travel device 6 .

Further, the work clutch 5 is configured to be able to change between an on state in which power is transmitted and an off state in which power is not transmitted. When the work clutch 5 is in the disengaged state, the power output by the engine 4 is not transmitted to the harvesting section 7 and the threshing section 8 . When the work clutch 5 is in the engaged state, the power output by the engine 4 is transmitted to the harvesting section 7 and the threshing section 8 .

That is, the work clutch 5 is configured to turn on and off power transmission to the reaping part 7 and the threshing part 8 .

When the work clutch 5 is in the engaged state, the reaping unit 7 is driven by the power from the engine 4 to reap planted grain culms in the field FI. When the work clutch 5 is in the engaged state, the threshing section 8 is driven by the power from the engine 4 to thresh the harvested culms.

Moreover, the headlamp 9 is configured to illuminate the front of the combine harvester 1 . The headlamp 9 is controlled by the controller 3 .

Moreover, the display unit 10 is arranged near the operator's seat (not shown) of the combine harvester 1 . And the display part 10 is comprised so that various information can be displayed. The operator can confirm various information by looking at the display unit 10 . The display unit 10 is controlled by the control unit 3 .

[Configuration of control unit and management server]
As shown in FIG. 2, the control unit 3 includes a clutch sensor 31, a headlight control unit 32, a position information acquisition unit 33, a display control unit 34, a date and time management unit 35, a working width detection unit 36, a conversion unit 37, a protein Measurement unit 38, moisture measurement unit 39, work completion detection unit 40, work completed range calculation unit 41, sheet yield acquisition unit 42 (corresponding to the "work information acquisition unit" according to the present invention), work completion determination unit 43, farmland area acquisition It has a unit 44 , a yield measuring unit 45 (corresponding to the “data value acquisition unit” according to the present invention), and an inclination sensor 46 .

The management server 2 also includes a yield determining unit 21 (corresponding to a "data value determining unit" according to the present invention), a movement determining unit 22, a past yield acquiring unit 23 (corresponding to a "past data value acquiring unit" according to the present invention). ), a yield range setting unit 24 (corresponding to the “value range setting unit” according to the present invention), a past yield database 25 and a field database 26 .

A clutch sensor 31 detects whether the work clutch 5 is on or off. A detection result by the clutch sensor 31 is sent to the display control section 34 , the work end detection section 40 , and the work completed range calculation section 41 .

The headlight controller 32 controls the headlight 9 .

The position information acquisition unit 33 acquires position information of the combine harvester 1 . The position information acquisition unit 33 is configured by GPS, for example. The position information acquired by the position information acquisition section 33 is sent to the headlight control section 32 , the display control section 34 , the work completed range calculation section 41 and the management server 2 .

As described above, the work information display system A includes the position information acquisition section 33 that acquires the position information of the combine harvester 1 .

The display control section 34 controls the display section 10 .

The date and time management unit 35 manages date information and time information. Date information is information indicating the current date. Also, the time information is information indicating the current time. The date and time management unit 35 then sends the date information and time information to the headlamp control unit 32 . Also, the date and time management unit 35 sends date information to the display control unit 34 .

The headlamp control unit 32 derives the sunset time based on the date information received from the date/time management unit 35 . Then, the headlamp control unit 32 controls the headlamps 9 based on the derived sunset time and the time information received from the date and time management unit 35 .

At this time, the headlamp controller 32 turns on the headlamp 9 in time with the sunset time. Further, the headlight control unit 32 changes the illuminance of the headlight 9 according to the current time.

Here, the combine 1 is configured so that the harvesting mode can be changed according to the crop type. The operator can change the harvesting mode of the combine 1 by operating a harvesting mode operation section (not shown) provided in the combine 1 .

The display control unit 34 determines whether the current harvesting mode is appropriate based on the date information received from the date/time management unit 35 and the position information received from the position information acquisition unit 33 . Then, when it is determined that the current harvesting mode is not appropriate, the display control section 34 causes the display section 10 to display a warning.

More specifically, based on the date information received from the date/time management unit 35, the display control unit 34 determines whether the current date corresponds to the general harvest time for the crop species corresponding to the current harvest mode. determine whether Then, when it is determined that the current date does not correspond to the general harvest time of the crop species corresponding to the current harvest mode, the display control unit 34 causes the display unit 10 to display a warning.

Further, based on the position information received from the position information acquisition unit 33, the display control unit 34 determines that the field FI where the combine harvester 1 is positioned is the field FI where the crop species corresponding to the current harvest mode is cultivated. Determine whether or not there is Then, when it is determined that the field FI where the combine harvester 1 is located is not the field FI where the crop species corresponding to the current harvesting mode is cultivated, the display control section 34 causes the display section 10 to display a warning. .

The working width detection section 36 detects the working width of the reaping section 7 .

More specifically, when the combine harvester 1 travels in the field FI for harvesting work, only a part of the harvesting section 7 may be performing the harvesting work. That is, the lateral width of the reaping part 7 and the actual working width do not necessarily match. Therefore, the working width detection unit 36 detects the working width of the reaping unit 7 by detecting the portion of the reaping unit 7 where reaping work is actually being performed.

Information on the work width detected by the work width detection unit 36 is sent to the work completed range calculation unit 41 .

The protein measuring unit 38 measures the protein content of grains obtained by the threshing process in the threshing unit 8 . A measurement result obtained by the protein measurement unit 38 is sent to the conversion unit 37 .

The moisture measuring unit 39 measures the moisture value of the grain obtained by the threshing process in the threshing unit 8 . A measurement result obtained by the moisture measurement unit 39 is sent to the conversion unit 37 and the display control unit 34 .

The protein content of grain varies depending on the amount of water contained in the grain. Therefore, the conversion section 37 converts the measurement result received from the protein measurement section 38 based on the measurement result received from the moisture measurement section 39 . That is, the conversion unit 37 converts the protein content rate of the grain into the protein content rate when the moisture value of the grain reaches a predetermined reference value.

A result of conversion by the conversion unit 37 is sent to the display control unit 34 . Then, the display control unit 34 causes the display unit 10 to display the measurement result of the moisture value received from the moisture measurement unit 39 and the conversion result of the protein content rate received from the conversion unit 37 .

The work end detection unit 40 detects the end of the farm work of the combine harvester 1 in the field FI. A detection result by the work completion detection unit 40 is sent to the display control unit 34 .

As described above, the work information display system A includes the work end detection unit 40 that detects the end of the farm work of the combine harvester 1 .

The worked range calculator 41 receives the position information received from the position information acquisition unit 33, the work width information received from the work width detector 36, and the detection result of the ON/OFF state of the work clutch 5 received from the clutch sensor 31. , and the range of completed farm work in the field FI is calculated.

More specifically, the work-completed range calculation unit 41 calculates a region through which a portion of the reaping unit 7 of the combine harvester 1 where the work clutch 5 is engaged passes through which is actually performing the reaping work, as a farm work completed range calculation unit 41 . Calculated as the range of

Then, the calculated farm work completed range is sent to the work completion determination unit 43 .

In this way, the work information display system A displays the field FI based on the position information of the combine harvester 1 acquired by the position information acquisition unit 33, the work width in the reaping unit 7, and the ON/OFF state of the work clutch 5. A work completed range calculation unit 41 is provided to calculate the range of farm work completed in .

The yield acquisition unit 42 acquires the yield of the entire farm field FI (corresponding to " agricultural work information" according to the present invention). Here, the area yield is the grain yield per area calculated based on the grain yield (corresponding to the "data value" according to the present invention).

As described above, the work information display system A includes the harvest acquisition unit 42 that acquires the harvest of the entire field FI.

The yield of the entire farm field FI acquired by the yield acquisition unit 42 is sent to the display control unit 34 . Then, the display control unit 34 causes the display unit 10 to display the yield of the entire farm field FI received from the yield acquisition unit 42 .

As described above, the work information display system A includes the display unit 10 capable of displaying the yield.

The work completion determination unit 43 determines whether farm work has been completed on the entire field FI. A determination result by the work completion determination unit 43 is sent to the work completion detection unit 40 .

The work end detection unit 40 is configured to detect the end of the farm work of the combine harvester 1 when the work completion determination unit 43 determines that the farm work has been completed on the entire field FI.

As described above, in the work information display system A, when the work completion determination unit 43 determines that the farm work has been completed in the entire field FI, the work end detection unit 40 detects the end of the farm work of the combine harvester 1. .

The farm field area acquisition unit 44 acquires the area of the farm field FI in which the combine harvester 1 is traveling for harvesting work. The area of the farm field FI acquired by the farm field area acquisition unit 44 is sent to the yield acquisition unit 42 .

The yield measurement unit 45 measures the yield of grains, which is information about the grain yield, over time while the combine 1 is running in the field FI. Thereby, the yield measuring unit 45 acquires the yield of grains. The grain yield acquired by the yield measurement unit 45 is sent to the grain yield acquisition unit 42 and the yield determination unit 21 .

As described above, the work information display system A includes the yield measuring unit 45 that acquires the grain yield related to the grain yield while the combine 1 is traveling for work in the field FI.

The tilt sensor 46 detects the tilt of the combine harvester 1 . A detection result by the tilt sensor 46 is sent to the movement determination unit 22 .

Thus, the work information display system A includes the tilt sensor 46 that detects the tilt of the combine harvester 1 .

Based on the detection result received from the tilt sensor 46, the movement determination unit 22 determines whether or not the combine harvester 1 has crossed over the ridge RI at the edge of the field FI and moved to the outside of the field FI. A determination result by the movement determination unit 22 is sent to the work completion detection unit 40 .

When the movement determination unit 22 determines that the combine harvester 1 has climbed over the ridge RI at the edge of the farm field FI and moved to the outside of the farm field FI, the work completion detection unit 40 detects the completion of the farm work of the combine harvester 1. is configured to

That is, the work end detection unit 40 detects the end of the farm work of the combine harvester 1 based on the detection result of the tilt sensor 46 .

The past yield database 25 stores the past yield in each of the plurality of field FIs. Past yield is the yield of grain obtained in harvesting operations performed in the past.

The past yield acquisition unit 23 extracts and acquires the past yield in the field FI where the combine harvester 1 is currently harvesting from the past yield stored in the past yield database 25 . The past yield acquired by the past yield acquisition unit 23 is sent to the yield range setting unit 24 .

As described above, the work information display system A includes the past yield acquisition unit 23 that acquires the past yield, which is the grain yield acquired in the past work performed in the field FI.

The yield range setting unit 24 sets the set yield range based on the past yield received from the past yield acquisition unit 23 . A set yield range is a certain range of values for grain yield. The set yield range set by the yield range setting unit 24 is sent to the yield determination unit 21 .

As described above, the work information display system A includes the yield range setting unit 24 that sets a certain value range based on the past yield acquired by the past yield acquisition unit 23 .

The set yield range set by the yield range setting unit 24 may be a value range having an upper limit value and a lower limit value, or a value range having only a lower limit value without an upper limit value.

The yield determination unit 21 determines whether or not the grain yield received from the yield measurement unit 45 is included in the set yield range received from the yield range setting unit 24 . A determination result by the yield determination unit 21 is sent to the work completion detection unit 40 .

As described above, the work information display system A includes the yield determination unit 21 that determines whether or not the grain yield obtained by the yield measurement unit 45 is within the set yield range.

Then, the work completion detection unit 40 determines that the work clutch 5 is in the disengaged state, and the yield determination unit 21 determines that the grain yield acquired by the yield measurement unit 45 is included in the set yield range. In this case, it is configured to detect the end of the farm work of the combine harvester 1 .

Thus, in the work information display system A, the work clutch 5 for turning on and off the power transmission to the reaping unit 7 and the threshing unit 8 of the combine harvester 1 is in the disengaged state, and the yield determination unit 21 determines that the yield measurement unit When it is determined that the grain yield obtained by 45 is within the set yield range, the work end detection unit 40 detects the end of the farm work of the combine harvester 1 .

In this way, in the work information display system A, when the work clutch 5 for turning on/off the power transmission to the reaping unit 7 and the threshing unit 8 of the combine harvester 1 is turned off, the work end detection unit 40 The end of the farm work of the combine harvester 1 is detected.

The farm field database 26 stores the farm field area and farm field range data for each of the plurality of farm fields FI. Field range data is data indicating the range of each field FI.

The work completion determining unit 43 extracts and acquires the farm field range data of the farm field FI where the combine harvester 1 is currently performing the harvesting work from the farm field range data stored in the farm field database 26 . Then, the work completion determination unit 43 compares the farm field range data acquired from the farm field database 26 and the farm work completed range received from the work completed range calculation unit 41, thereby determining whether the entire farm field FI has been farmed. It is determined whether or not.

As described above, the work information display system A includes the work completion determination unit 43 that determines whether or not farm work has been completed on the entire field FI based on the calculation results of the work completed range calculation unit 41 .

In addition, the farm field area acquisition unit 44 sends the farm field area acquired from the farm field database 26 to the yield acquisition unit 42 . Then, the grain yield acquiring unit 42 calculates the grain yield of the entire field FI based on the grain yield received from the yield measuring unit 45 over time. Further, the area yield acquisition unit 42 calculates the area yield of the entire farm field FI based on the calculated grain yield of the entire farm field FI and the farm field area received from the farm field area acquisition unit 44 .

Thereby, the harvest acquisition unit 42 acquires the harvest of the entire field FI.

The display control unit 34 causes the display unit 10 to display the yield of the entire farm field FI received from the yield acquisition unit 42 when the work end detection unit 40 detects the end of the farm work of the combine 1 .

As described above, the work information display system A includes the display control unit 34 that causes the display unit 10 to display the yield when the work end detection unit 40 detects the end of the farm work of the combine harvester 1 .

Here, as described above, the work completion detection unit 40 determines that the work clutch 5 is in the disengaged state, and the yield determination unit 21 determines whether the grain yield acquired by the yield measurement unit 45 is included in the set yield range. If it is determined that the combine 1 is finished, the end of the farm work is detected.

At this time, the display control unit 34 is configured to keep the display unit 10 displaying the harvesting for a predetermined period from the time when the work clutch 5 is disengaged.

[Regarding collection display control]
When the combine 1 is traveling for harvesting work in the field FI, the work information display system A executes the harvest display control shown in FIG. Hereinafter, the collection display control shown in FIG. 3 will be described.

When the collection display control is started, first, the process of step S1 is executed. In step S1, the work completion determination unit 43 compares the farm field range data acquired from the farm field database 26 with the farm work completed range received from the work completed range calculation unit 41, thereby determining whether the entire farm field FI is farmed . Determine whether work has been completed.

If it is determined as Yes in step S1, the process proceeds to step S4. Moreover, if it determines with No at step S1, a process will transfer to step S2.

In step S2, based on the detection result received from the tilt sensor 46, the movement determination unit 22 determines whether or not the combine harvester 1 has crossed over the ridge RI at the edge of the field FI and moved to the outside of the field FI.

If determined as Yes in step S2, the process proceeds to step S4. Further, if the determination in step S2 is No, the process proceeds to step S3.

In step S3, the work end detection unit 40 determines that the work clutch 5 is in the disengaged state, and the yield determination unit 21 determines that the grain yield obtained by the yield measurement unit 45 is included in the set yield range. It is determined whether or not

If determined as Yes in step S3, the process proceeds to step S4. Moreover, if it is determined as No in step S3, the process proceeds to step S1.

That is, the process repeats steps S1 to S3 after the start of the collection display control until it is determined as Yes in any of steps S1 to S3. Then, if it is determined as Yes in any of steps S1 to S3, the process proceeds to step S4.

In step S<b>4 , the work end detection unit 40 detects the end of the farm work of the combine harvester 1 . Then, the process moves to step S5.

In step S5, the display control unit 34 causes the display unit 10 to display the yield of the entire farm field FI. Then, the collection display control ends.

According to the configuration described above, the harvest is displayed when the work end detection unit 40 detects the end of the farm work of the combine harvester 1 . Thereby, it is possible to realize a configuration in which the display unit 10 displays the total yield of the entire farm field FI when the combine harvester 1 completes the farm work .

Moreover, with the configuration described above, the operator does not need to perform a special operation to display the yield on the display unit 10 . That is, even if the operator is not proficient in operating the combine harvester 1, it is possible to reliably display the return on the display unit 10. FIG.

Therefore, with the configuration described above, even if the operator is not proficient in operating the combine harvester 1, it is possible to reliably display the yield of the entire field FI on the display unit 10 at the optimum timing. It is possible.

[Other embodiments]
(1) The combine 1 may not be included in the work information display system A.

(2) The work end detection unit 40 may be configured to detect the work end of an agricultural work machine other than the combine 1, such as a rice transplanter or a tractor. In this case, the display control unit 34 can be configured to display work information related to the agricultural working machine other than the combine 1, such as a rice transplanter and a tractor, on the display unit 10. FIG.

(3) The "work section" according to the present invention is not limited to the field FI. For example, a predetermined area in one field FI may be treated as a "work section", and the display control unit 34 may be configured to cause the display unit 10 to display farm work information for the entire area. Further, a predetermined area extending over a plurality of farm fields FI may be treated as a "work section", and the display control unit 34 may be configured to display farm work information for the entire area on the display unit 10.

(4) A fuel efficiency acquisition unit may be provided to acquire the travel distance per unit fuel consumption of the combine harvester 1 in the entire field FI. In this case, the travel distance per unit fuel consumption of the combine harvester 1 corresponds to the " agricultural work information" according to the present invention. In this case, the display control unit 34 can be configured to display the traveling distance per unit fuel consumption of the combine harvester 1 on the display unit 10 . Furthermore, in this case, the fuel consumption and travel distance of the combine harvester 1 correspond to the "data value" according to the present invention. That is, a combustion consumption acquisition unit, a past fuel consumption acquisition unit, a fuel consumption range setting unit, and a fuel consumption determination unit are provided, and the fuel consumption determination unit determines whether the fuel consumption is included in the set fuel consumption range. It may be configured to determine whether or not the Further, a travel distance acquisition unit, a past travel distance acquisition unit, a travel distance range setting unit, and a travel distance determination unit are provided, and the travel distance determination unit determines whether or not the travel distance is included in the set travel distance range. It may be configured as follows.

(5) The configuration may be such that the grain yield is acquired as information corresponding to the " agricultural work information" according to the present invention. In this case, the display control unit 34 can be configured to display the grain yield on the display unit 10 .

(6) The travel time of the combine harvester 1 may be acquired as information corresponding to the " agricultural work information" according to the present invention. In this case, the running time of the combine harvester 1 can be displayed on the display unit 10 by the display control unit 34 .

(7) The configuration may be such that the fuel consumption of the combine harvester 1 is acquired as information corresponding to the " agricultural work information" according to the present invention. In this case, the fuel consumption amount of the combine harvester 1 can be displayed on the display unit 10 by the display control unit 34 .

(8) The configuration may be such that the travel distance of the combine harvester 1 is acquired as the information corresponding to the " agricultural work information" according to the present invention. In this case, the travel distance of the combine harvester 1 can be displayed on the display unit 10 by the display control unit 34 .

(9) The yield measuring unit 45 may not be provided.

(10) The past yield acquisition unit 23 may not be provided.

(11) The yield range setting unit 24 may not be provided.

(12) The yield determination unit 21 may not be provided.

(13) The tilt sensor 46 may not be provided.

(14) The position information acquisition unit 33 may not be provided.

(15) The worked range calculator 41 may not be provided.

(16) The work completion determination unit 43 may not be provided.

(17) The display control unit 34 may be configured to cause the display unit 10 to display the harvest after a predetermined period of time has elapsed since the work clutch 5 was disengaged.

(18) The work clutch 5 may not be included in the work information display system A.

(19) The reaping unit 7 may not be included in the work information display system A.

(20) The threshing unit 8 does not have to be included in the work information display system A.

(21) The display unit 10 may be provided in an operation terminal provided separately from the combine harvester 1 and the management server 2 .

(22) Display unit 10, headlight control unit 32, display control unit 34, date and time management unit 35, conversion unit 37, work completion detection unit 40, work completed range calculation unit 41, return collection acquisition unit 42, work completion determination unit 43 and the agricultural field area acquisition unit 44 may be partly or entirely provided in the management server 2 .

(23) A part or all of the yield determination unit 21, the movement determination unit 22, the past yield acquisition unit 23, the yield range setting unit 24, the past yield database 25, and the field database 26 may be provided in the combine 1. .

INDUSTRIAL APPLICABILITY The present invention can be applied to a work information display system that includes a work information acquisition unit that acquires work information for the entire work section.

1 combine ( agricultural machine)
5 work clutch 7 reaping part (work device)
8 Threshing section (working device)
10 display unit 21 yield determination unit (data value determination unit)
23 past yield acquisition unit (past data value acquisition unit)
24 Yield range setting part (value range setting part)
33 position information acquisition unit 34 display control unit 40 work end detection unit 41 work completed range calculation unit 42 collection acquisition unit (work information acquisition unit)
43 Work completion determination unit 45 Yield measurement unit (data value acquisition unit)
46 Tilt sensor A Work information display system FI Field

Claims (4)

a work information acquisition unit that acquires farm work information for the entire field ;
a work end detection unit that detects the end of farm work by the agricultural machine;
a display unit capable of displaying the farm work information;
a display control unit that displays the farm work information on the display unit when the work end detection unit detects the end of the farm work by the agricultural machine ;
a position information acquisition unit that acquires position information of the agricultural work machine;
Based on the position information of the agricultural work machine acquired by the position information acquisition unit, the work width of the working device of the agricultural work machine, and the ON/OFF state of a work clutch that turns power transmission to the work device on and off. a worked range calculation unit that calculates a range of completed farm work in the field;
a work done determination unit that determines whether or not farm work has been completed for the entire field based on the result of calculation by the work done range calculation unit;
A work information display system in which, when the work completion determination unit determines that farm work has been completed on the entire farm field, the work end detection unit detects the end of farm work by the agricultural machinery . When the work clutch is disengaged, the work end detection unit detects the end of farm work by the agricultural machine,
2. The work information display system according to claim 1, wherein the display control unit causes the display unit to keep displaying the farm work information for a predetermined period from the time when the work clutch is disengaged. A tilt sensor that detects a tilt of the agricultural implement ,
3. The work information display system according to claim 1, wherein the work end detection unit detects the end of farm work by the agricultural machine based on the detection result of the tilt sensor. a data value acquisition unit that acquires a data value related to the farm work information while the farm work machine is running in the field ;
a past data value acquisition unit that acquires a past data value, which is the data value acquired in farm work performed in the past in the field ;
a value range setting unit that sets a certain value range based on the past data values acquired by the past data value acquisition unit;
a data value determination unit that determines whether the data value acquired by the data value acquisition unit is included in the value range;
When the work clutch is disengaged and the data value determination unit determines that the data value acquired by the data value acquisition unit is included in the value range, the work end detection unit 4. The work information display system according to any one of claims 1 to 3 , which detects completion of farm work by the farm work machine.

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