JP6375263B2 - Agricultural machinery share lease execution system and agricultural machinery share lease execution method - Google Patents

Description

  The present invention relates to a system and a method for executing an agricultural machine share lease in which a farm machine is sequentially used for a plurality of farmers with lease contracts, and a lease fee is charged to each farmer.

  There is a system in which the same agricultural machine is shared by multiple farmers near the farm.

  However, as described above, when the farm is close, for example, the time of rice harvesting is concentrated, so the range of farmers that can be shared is limited, and the operating rate of the agricultural machine cannot be increased sufficiently. was there.

  In contrast, a leasing company leases an agricultural machine, which is a leased item, to one of a plurality of farmers, including relatively remote farmers who have lease contracts, and transports them to the next farmer after completing the work at that farmer. Agricultural machinery lease contracts have been proposed in which each farmhouse is used sequentially and a lease fee is charged to each farmer.

  In this case, it is necessary to grasp the actual condition of the use of the agricultural machine and use it sequentially in an efficient manner, and the agricultural machine may not be used depending on the weather. It is necessary to ensure that the delivery date does not arrive.

  In addition, it is necessary to clean the farm machine so that it can be used immediately by the next farmer before transporting it from the farmer to the next farmer. is there.

Masayoshi Nakamura, 1 other, Rice Farming Machine Rental Association | Advanced Agricultural Cooperation Promotion Organization Homepage “Background of Consortium Formation” [online], as of May 20, 2015, Agriculture, Forestry and Fisheries Business Promotion Support Center, [2015 May 20 search], Internet <URL: http://sentannogyo-kiko.jp/cooperation/481/>

  The present invention has been made in view of the above problems, and provides an agricultural machine share lease execution system and method for an agricultural machine share lease that enables the agricultural machine to be efficiently shared even between remote locations. The issue is to provide.

  The above problems are solved by the following embodiments of the present invention.

  (1) A leasing company rents out an agricultural machine, which is a leased property, to one of the farmers who made up a share team consisting of multiple farmers with a share lease contract, and transports it to the next farmer after completing the work at that farmer. An agricultural machine share lease execution system that sequentially uses and charges each farmer for a lease fee, and is connectable to the lease execution server of the leasing company and the lease execution server via a communication line. A mobile terminal equipped in the agricultural machine, the mobile terminal including the operation start time and the operation end time of the agricultural machine, and at least the position data of the agricultural machine at these times. Position operation data storage means for acquiring and storing the position operation data, and a position operation data for transmitting the stored position operation data to the lease execution server. Use condition data reception storage means for accepting and storing input of use condition data including information on the farm machine, a user of the farm machine and its farm field information, and work plan information. And the position operation data receiving and storing means for receiving and storing the input of the position operation data transmitted by the position operation data transmitting means, and the usage fee of the agricultural machine from the stored position operation data and use condition data. Usage fee calculation means for calculating, wherein the usage fee calculation means corresponds to the desired lending days by the farmer, the non-working reference date corresponding to the desired lending days, the desired work area, and the desired work area. The basic charge calculation means for calculating the basic charge determined by the reference work time, and the reference work time is exceeded from the stored position operation data. And an additional charge calculating means for calculating an additional charge consisting of the sum of the excess time charge corresponding to the excess time and the additional loan day charge corresponding to the desired loan days, and is calculated by the basic charge calculation means. An agricultural machine share lease execution system configured to calculate the usage fee, which is the sum of the basic fee and the additional fee calculated by the additional fee calculating means.

  (2) The leasing company leases the agricultural machine, which is a leased property, to one of the farmers who have lease contracts. After the work at that farmer is completed, it is transported to the next farmhouse and used sequentially. An agricultural machine share lease execution method for charging a lease fee to a leaser, wherein a carrier carries the farm machine with a mobile terminal to one of the plurality of farmers according to an instruction from a lease execution server of the lease company And the farmer uses the farm machine, and obtains the operation start time and the operation end time, and at least position operation data including position data of the farm machine at these times by the mobile terminal. And transmitting the position operation data to the lease execution server, and in the lease execution server, information on the agricultural machine, a user of the agricultural machine, and a field thereof Based on the usage condition data including information and work plan information and the position operation data, the usage fee of the agricultural machine is calculated, and the mobile terminal uses the mobile terminal to set a plurality of final cleaning points set in the agricultural machine after cleaning. A step of transmitting status data to the lease execution server; and in the lease execution server, determining whether or not cleaning is completed from the transmitted status data after the cleaning. A signal for instructing cleaning again, if positive, a signal for confirming the intention of returning the agricultural machine is transmitted to the mobile terminal, and a signal for confirming the intention of returning the agricultural machine is received by the mobile terminal. A step of transmitting an instruction signal for transporting the farm machine to the next farmhouse from the lease execution server to the carrier, and a signal for confirming the intention of returning the farm machine to the mobile terminal. A farm machine share lease execution method characterized by repeating the step of charging the calculated farm machine usage fee with respect to the farmer who has indicated the intention of returning the farm machine. .

  Here, the “agricultural machine” refers to a machine that can be transported among farming machines and facilities, such as a combine. A “farmer” refers to a person who operates agriculture.

  According to the present invention, even if the distance between the farm fields of a plurality of farmers is relatively long, the same farm machine can be used sequentially, and thus the farm machine can be used between fields with different work periods. This has the effect of greatly improving the efficiency of shared use.

The block diagram which shows the agricultural machine share lease execution system which concerns on the Example of this invention. The perspective view which shows the agricultural machine used as the object of a lease contract in an Example. Block diagram showing the share lease contract creation unit in the execution system Plan view showing Form 1/2 for share lease contract application Plan view showing Form 2/2 for applying for share lease contract Top view showing the farm field of a farmer with a share lease agreement Top view showing remote farms of share team farmers The block diagram which shows the lease execution server which forms the execution system Block diagram showing a mobile terminal in the execution system The image which shows the 1st-8th of the last cleaning part set up beforehand in the agricultural machine Images showing the 9th to 16th final cleaning points set in advance on the agricultural machine The image which shows the 17th-20th of the last cleaning location set up beforehand in the agricultural machine Flow chart showing lease contract process in share lease contract execution process Flow chart showing lease execution process in share lease contract execution process Operating position / trajectory information list screen showing the operating position and time of the agricultural machine Agricultural machinery operating time information list screen showing the operating time of the agricultural machinery Weather data information list screen showing the weather data acquired by the lease execution server Screen of usage report showing the usage fee for agricultural machinery Drawing showing a part of the charge calculation application used by the usage charge calculation means Screen showing visualization data Image remote management system screen showing the image after cleaning at the final inspection / cleaning location Return intention display screen showing farm machine return intention and farm machine appearance A plan view schematically showing an example of an index when taking an image after cleaning of the final inspection / cleaning point

  Embodiments of the present invention will be described below with reference to the drawings.

  As shown in FIG. 1, an agricultural machine share lease system 10 according to an embodiment of the present invention includes a share lease contract creation unit 20, a lease execution server 40 including the share lease contract creation unit 20, and the lease execution server 40. And a mobile terminal 80 connectable via the Internet 14.

The mobile terminal 80 is provided in the agricultural machine (see FIG. 2) M. Code M ₁ in FIG. 2 is a matrix type two-dimensional code such as agricultural machine affixed to the QR code (registered trademark), it has been the readable by a camera 80E of the mobile terminal 80, mobile terminal 80 matrix the reading of the type 2-dimensional code M _1, is adapted to display the check cleaning manual below the display 80D.

  The share lease contract creation unit 20 is configured to accept applications for share lease contracts from the farmers 12 via the Internet 14 or via FAX or mail, and from a plurality of farmers who have applied for share lease contracts. A plurality of farmers are grouped together under a certain condition (details will be described later) to form one share team, and a share lease contract with each farmer is created.

  Specifically, as shown in FIG. 1, for example, a share team 112 composed of four farms 12A to 12D and a three or four farms (share lease contract) such as three farms 12E to 12G share team 212 Within the creation unit 20, 2 to 30 households are set up; details will be described later) and one share team is formed.

  Next, the share lease contract creation unit 20 will be described with reference to FIG. 3 showing the configuration of the share lease contract creation unit 20.

  The share lease contract creation unit 20 includes an interface unit (IF unit) 20A, a storage device 20B, and a control unit 30.

  A keyboard 20C, a display 20D, and a printer 20E are connected to the control unit 30 via the IF unit 20A. In addition, it is possible to connect to the farmer 12 applying for a contract via the Internet 14, FAX, or mail. When sent from the farmer 12 by FAX or mail, the contract application data is input to the control means 30 from the keyboard 20C via the IF means 20A.

  The control means 30 is a share lease application data reception function 31 that accepts share lease application data from the farmers 12 via the IF means 20A, a share team composition condition reception means 32, a share team composition means 33, and a share lease contract. A creation means 34, a share lease contract delivery instruction function 35, and an established contract data transmission means 36 are provided.

  As shown in Fig. 4A and Fig. 4B, the share lease application form or form should include the farm address, credit information, desired work area, type of farm equipment, desired work period, etc. It has become.

  The share team composition condition receiving means 32 is configured to receive the conditions for the share team composition from the keyboard 20C, for example. Here, the share team composition conditions are: (1) that each farm 12 does not overlap the work period by the farm machine, (2) the total desired work area of the share team is equal to or greater than a set value, and (3) It includes three conditions that the distance between farmers is below the set value.

  The condition that the work periods do not overlap is natural, but the condition that (2) the total work area desired by the share team exceeds the set value is that the total usage fee received from the farmer in the case of a small total area is This is because the cost is reduced. (3) If the distance between the farmers is not less than the set value, for example, 200 km or less, the transportation time and the transportation cost will be excessive. The total desired work area of these share teams is based on the declared area from the farmer, but may be calculated based on a satellite photograph or aerial photograph of the field as shown in FIGS. 5 and 6, for example. .

  Regarding the setting of the work period, for example, when the agricultural machine is a combine for harvesting rice, it may be as follows.

  In order to use the same agricultural machine efficiently within the depreciation period, for example, in the same area, this year's rice harvest (September to November 15), the next year's wheat harvest (June and August), A period of 7 months is set for the next year's rice harvesting (September to November 15). These 7 months are set at 1 to 2 months apart in other areas of the share team.

  Based on the conditions received by the share team composition condition acceptance means 32 and the share lease application information from each farm, the share team composition means 33 is configured to form a share team composed of a plurality of farmers.

  When the agricultural machine M is a combine, the number of share teams is 2 to 30. The reason why the number of share teams was set to a minimum of 2 is that it cannot be profitable with a single unit. The maximum of 30 units is 30 weeks for the above seven months, and the minimum usage period is from the point of profitability. This is because if it is one week, there will be a maximum of 30 units.

  The share lease contract creation means 34 indicates that the share lease contract has been established with the contents of the share lease contract application form (application for contract) from the farmer 12 shown in FIGS. 4A and 4B. Specifically, the contract is finalized by displaying that the application is accepted on a part of the share lease contract application form (see the lower half of FIG. 4B).

  The share lease contract delivery instruction function 35 instructs the share lease contract created by the share lease contract creation means 34 to be sent to the farmer 12 who applied for the share lease contract.

  In addition, the establishment contract data transmission unit 36 transmits the data of the share lease contract created by the share lease contract creation unit 34 to the lease execution server 40.

  The storage device 20B includes a share lease application data storage unit 21, a share team composition condition data storage unit 22, a share team data storage unit 23, a share lease contract storage unit 24, an established contract storage unit 25, and an established contract. The data transmission storage means 26 is included.

  The share lease application data storage means 21 stores the data of the share lease contract application from the farmer 12 received by the share lease application data reception function 31.

  The share team composition condition data storage means 22 stores condition data for the share team composition received by the share team composition condition reception means 32.

  The share team data storage means 23 stores the contents of the share team formed by the share team formation means 33, the farmers 12 constituting the share team, and the share lease contract application form.

  The share lease contract storage means 24 stores the contents of the share lease contract created by the share lease contract creation means 34, and the established contract storage means 25 receives the share lease contract delivery instruction function 35 from the share lease contract delivery instruction function 35. The fact that the share lease contract has been sent to the farmer 12 by the instruction is stored.

  Further, the contracted contract data transmission storage means 26 stores that the contracted contract data has been sent from the contracted contract data transmission means 36 to the lease execution server 40.

  Here, the share lease application data reception function 31 and the share lease agreement delivery instruction function 35 in the control means 30 together with the IF means 20A constitute a share lease application data acceptance means and a share lease agreement delivery instruction means. Is.

  Next, the lease execution server 40 shown in FIG. 7 will be described.

  The lease execution server 40 includes a control unit 60, an IF unit 20A, and a storage device 40B. The mobile terminal 80 is connected to the control unit 60 via the Internet 14 and the IF unit 20A.

  The mobile terminal 80 is composed of a tablet or the like having a function for confirming its current position, for example, a GPS function and a photographing function capable of taking a picture. The IF unit 80A, the storage device 80B, and the control unit 90 In addition, the control unit 90 can receive data from the keyboard 80C, the display 80D, and the camera 80E via the IF unit 80A.

  When the mobile terminal 80 is set on the farm machine M, power is supplied from, for example, a cigar socket, and power is supplied only when the engine of the farm machine M is ON. Further, the mobile terminal 80 is configured to acquire an ON / OFF signal of the engine of the agricultural machine M from ON / OFF of power feeding.

  The GPS function may be provided in the agricultural machine M. In this case, the GPS device of the agricultural machine M and the mobile terminal 80 are configured to transmit / receive directly or via WiFi (registered trademark) or Bluetooth (registered trademark).

  The control means 60 of the lease execution server 40 includes a share lease contract information reception function 61, a use condition data reception function 62, an agricultural machine carry-in instruction information creation means 63, an agricultural machine arrival information reception function 64, and a position operation data reception function 65. And at least precipitation data from the usage fee calculation means 66 including the basic charge calculation means 66A and the additional charge calculation means 66B and the weather information source 15 that supplies the weather information of the area where the target farm is located. And weather data acquisition function 67 received via IF means 20A, non-working day calculation means 68, reduction days calculation means 69, post-reduction fee calculation means 70, work content area data reception function 71, work standard time A calculation means 72, a visualization data calculation function 73, a visualization data transmission function 74, a final inspection data reception function 75, It is constituted by a retirement intention unit 76.

  The storage device 40B includes a share lease contract information storage unit 41, a use condition data storage unit 42, an agricultural machine carry-in instruction information data storage unit 43, an agricultural machine arrival information data storage unit 44, a position operation data storage unit 45, a basic operation Charge storage means 46A, additional charge storage means 46B, weather data storage means 47, non-working day storage means 48, reduced days storage means 49, reduced charge storage means 50, work content area data storage means 51 And a work standard time storage unit 52, a visualization data storage unit 53, a final inspection data storage unit 54, and a pre-use image data storage unit 55.

  The share lease contract information receiving function 61 is configured to receive the data of the share lease contract contents from the establishment contract data transmitting means 36 of the share lease contract creating unit 20, and the share lease contract information storage means 41 receives the received share lease. The contents of the contract are memorized.

  The use condition data reception function 62 is configured to receive input from the keyboard 20C, for example, of use condition data including information on a share lease target farm machine, a farm machine user, the farm field information, and work plan information. The condition data storage means 42 is configured to store accepted usage condition data.

  Based on the information of the established share lease contract, the farm machine carry-in instruction information creating means 63 carries the farm machine M to the first farmer constituting the share team to the transport company terminal 16A of the farm machine transport company 16 via the Internet 14. The instruction information is generated and transmitted, and this instruction information is stored in the agricultural machine carry-in instruction information data storage means 43.

  The agricultural machine arrival information reception function 64 is adapted to receive arrival information indicating that the agricultural machine M has arrived from the mobile terminal 80 of the farm 12 via the Internet 14 and the IF means 20A. Is stored in the agricultural machine arrival information data storage means 44.

  The position operation data reception function 65 includes the operation start time and operation end time of the agricultural machine M transmitted from the mobile terminal 80 via the Internet 14, and at least the position operation including the position data of the agricultural machine M at these times. Data is acquired, and the position operation data storage means 45 is configured to store the acquired position operation data.

  The operation start time and operation end time of the agricultural machine M are the ON / OFF times of the engine acquired by the mobile terminal 80, and the time between them is the operation time shown in FIG. 13 and is shown by a specific hour meter. (See FIG. 15).

  The basic charge calculation means 66A constituting the use charge calculation means 66 is determined by the desired lending days by the farmer 12, the non-working reference day corresponding to the desired lending days, the desired work area, and the standard work time corresponding to the desired work area. The basic charge is calculated, and the basic charge data is stored in the basic charge storage means 46A.

  The non-working standard day corresponding to the desired loan day is composed of an average number of rainy days within the desired loan day in a period including the desired loan day.

  The additional charge calculation means 66B constituting the usage charge calculation means 66 corresponds to the overtime charge corresponding to the excess time exceeding the reference work time and the desired loan days from the position operation data stored in the position operation data storage means 45. An additional fee consisting of the total number of additional lending days is calculated, and the calculated additional fee is stored in the additional fee storage means 46B.

  The meteorological data acquisition function 67 acquires the meteorological data of the area including the farm field where the agricultural machine M exists from, for example, a meteorological information source 15 such as a meteorological measuring instrument or a meteorological information company via the Internet 14 and the IF unit 20A. The acquired weather data is stored in the weather data storage means 47.

  The non-working day calculation means 68 is configured to calculate a day with a precipitation of 10 mm or more per day as a non-working day due to bad weather from the stored weather data. It is stored in the means 48.

  The reduced days calculation means 69 calculates the difference days obtained by subtracting the number of days of non-working reference days stored in the basic charge storage means 46A from the number of days of non-working days stored due to bad weather as the non-working days to be reduced. Thus, the reduction target non-working day is stored in the reduction day storage means 49.

  The post-reduction fee calculation means 70 calculates an amount obtained by multiplying the stored reduction days by the reduction per day from the usage fee, and the calculated amount is calculated as the post-reduction fee storage means 50. To be remembered.

  Specifically, the usage fee calculation means 66 includes an application as shown in FIG.

  The work content area data reception function 71 is configured to receive work content area data transmitted from the mobile terminal 80 via the Internet 14 via the IF means 20A. The work content area data storage means 51 is stored.

  The work standard time calculation means 72 is the national average of the work time per unit area of the work based on the stored work content area data, and the work time per unit area of the same type of work as the work content. Work standard time data is calculated, and this data is stored in the work standard time storage means 52. However, since the “national average” is based on the data for agricultural machinery provided by the leasing company, it is only used as reference data when the population is small.

  The visualization data calculation means 73 includes visualization including stored work time per unit area, work standard time data, today's work area data, today's usage charge data, and today's usage charge data. Data is calculated, and this visualization data is stored in the visualization data storage means 53. The stored visualization data is transmitted to the mobile terminal 80 by the visualization data transmission function 74 via the IF unit 20 </ b> A and the Internet 14.

  The final inspection data reception function 75 is adapted to receive final inspection data from the mobile terminal 80 transmitted via the Internet 14 and IF means 20A. The final inspection data is stored in the final inspection data storage means. 54 is stored.

  Here, in the agricultural machine M, a plurality of final cleaning places to be cleaned after the work and before the agricultural machine is carried out are set, and final inspection means for detecting whether or not these final cleaning parts are cleaned. (See FIGS. 9A, 9B, and 9C). This final inspection means is, for example, inspection marks set at 18 locations of the agricultural machine M and the camera 80E of the mobile terminal 80, specifically, images of 18 locations before the agricultural machinery M is used. The image is stored in advance in the pre-use image data storage means 55 of the lease execution server 40. The 15th image in FIG. 9B is a description of the operation, and the 20th image in FIG. 9C shows equipment and spare parts.

  The images shown in FIG. 9A, FIG. 9B, and FIG. 9C are (1) a photograph of a state in which the lid of the conveyor unit inside when the Glen tank is opened, (2) a photograph of a state in which the Glen tank is opened, (3) Photo of the auger part with four lids open, (4) Photo of the transfer chain removed, (5) Photo of the lower part of the saw barrel, (6) The left side of the combine (7) Photo of the conveyor unit with the lid open, (7) Photo of the conveyor unit with the 1st and 2nd bottom open, (8) Photo of the swinging rear part of the combine rear, (9) Raising the chain cover (10) Photo of bearings at both ends of cutting blade, (11) Enlarged photo of bearings at both ends of cutting blade, (12) Photo of sub tank in which the amount of cooling water can be confirmed, (13) Pre-cleaner Photo of the state after cleaning, (14) Photograph of the conditioner after cleaning, (15) Photograph showing the operation of UFO before cleaning of the cutting blade and undercarriage, (16) Photograph of the state where the entire cutting blade is visible, (17) Raising UFO to the maximum (18) Photo of the right crawler with UFO raised to the maximum, (19) Photo of whether the fuel is full and the power meter can be checked, (20) It is a photograph of simultaneous conveyance parts (equipment and spare parts).

Figures 9A, 9B, an image shown in FIG. 9C, after the work, the camera 80E of the mobile terminal 80, by reading the 2-dimensional code _{M 1} in FIG. 2, and is displayed on the display 80D .

  The return intention display means 76 returns the final inspection data transmitted from the mobile terminal 80, that is, after the work is completed, the farmer who has worked returns the 18 places to the state before the start of use, and equips the equipment and spare parts. The received final inspection data is compared with the pre-use image data in the pre-use image data storage means 55 and stored in the final inspection data storage means 54. .

  The return intention display means 76 displays the stored final inspection data on the screen as an intention to return the farm machine when the degree of coincidence between the two is high as a result of the comparison, whereby the farm machine is displayed to the next farmer. It can be transported. When the degree of coincidence is low, a second cleaning request signal is transmitted to the mobile terminal 80.

  Next, the configuration of the control unit 90 and the storage device 80B of the mobile terminal 80 will be described.

  The control means 90 includes an agricultural machine position time data acquisition function 91, an agricultural machine position time data transmission function 92, a work content area data acquisition function 93, a work content area data transmission function 94, a visualization data acceptance function 95, and visualization data. A display function 96, a cleaning location image acquisition function 97, a final inspection data acquisition function 98, a final inspection data transmission function 99, and a recleaning request reception function 100 are provided.

  The storage device 80B includes an agricultural machine position time data storage unit 81, a work content area data storage unit 82, a visualization data storage unit 83, a cleaning location video storage unit 84, a final inspection data storage unit 85, and a re-cleaning. And a request reception storage means 86.

  The farm machine position time data acquisition function 91 in the control means 90 uses, for example, a GPS function to acquire position operation data including the operation start time and operation end time of the farm machine M and the position data of the farm machine M at these times. Thus, the acquired position operation data is stored in the agricultural machine position time data storage means 81 in the storage device 80B.

  The agricultural machine position time data transmission function 92 is configured to transmit the stored agricultural machine position time data to the lease execution server 40 via the IF unit 80A and the Internet 14.

  The work content area data acquisition function 93 can calculate and acquire the work content area data including the work content data by the farm machine M and the data of the work area of the work day by using the GPS function. The work content area data acquisition function 93 is stored in the work content area data storage means 82.

  The work content area data transmission function 94 is configured to transmit the stored work content area data to the lease execution server 40 via the IF unit 80 </ b> A and the Internet 14.

  The visualization data acceptance function 95 is adapted to accept visualization data transmitted from the lease execution server 40 via the Internet 14 and the IF means 80A, and the accepted visualization data is stored in the visualization data storage means 83. It is like that. The visualized data display function 96 displays the stored visualized data on the display 80D via the IF unit 80A.

  The final inspection data acquisition function 98 is configured to acquire final inspection data of the inspection result by the final inspection means, and the acquired final inspection data is stored in the final inspection data storage means 85.

  The final inspection data transmission function 99 is configured to transmit the stored final inspection data to the lease execution server 40 via the IF unit 80A and the Internet 14.

  When the return intention display means 76 of the lease execution server 40 does not display the return intention, the re-cleaning request reception function 100 receives this as a cleaning request again.

  Next, a process of executing an agricultural machine share lease by the agricultural machine share lease system 10 according to the embodiment will be described.

  First, as shown in FIG. 10, the share lease contract creation unit 20 in the agricultural machine share lease system 10 accepts an application for a share lease contract, forms a share team, and transmits established contract information to the lease execution server 40. The process up to will be described.

  In step 101, an application for a share lease contract is accepted from a plurality of farmers 12 via the Internet 14 or by FAX / mailing means in the form shown in FIGS. 4A and 4B.

  This application information is received by the share lease application data reception function 31 of the control means 30 from the keyboard 20C through the IF means 20A shown in FIG.

  In the next step 102, the share team composition condition receiving means 32 of the share lease contract creating unit 20 receives the data of the share team composition condition, and in step 103, the share team composition means 33 forms a share team. At this point, the application for the share lease contract is accepted, and the share lease contract is established.

  In the next step 104, the share lease contract created by the share lease contract creation means 34 is sent to the farmer by the share lease contract dispatch instruction function 35, and the share lease contract is sent from the lease company to the farmer. Will be shipped to.

  In step 105, the established contract data transmission unit 36 transmits the established share lease contract information to the share lease contract information reception function 61 of the lease execution server 40.

  Next, the lease execution process in the lease execution server 40 will be described with reference to FIG.

  In step 201, the share lease contract information receiving function 61 of the lease execution server 40 accepts share lease contract information from the share lease contract creation unit 20.

  In step 202, the use condition data reception function 62 accepts use condition data.

  In the next step 203, the agricultural machine carry-in instruction information created by the instruction from the agricultural machine carry-in instruction information creating means 63 is transferred from the lease execution server 40 to the transport company terminal 16A of the agricultural machine transport company 16 via the IF means 20A and the Internet 14. Sent.

  In accordance with the instruction, the shipping company 16 carries the farm machine M to the first farmer 12A of the share team on the day of the delivery instruction, and this carry-in information is transmitted from the mobile terminal 80 of the farmer 12A to the lease execution server 40, It is received by the arrival information reception function 64.

  In step 205, the farmer's mobile terminal 80, such as rice harvester, sends the position of the farm machine and the start time and end time data using the farm machine to the lease execution server 40 as shown in FIG. This data is received by the position operation data receiving function 65 as position operation data in step 206. The received data is stored in the position operation data storage means 45 as a machine operation time information list screen as shown in FIG.

  In step 207, the weather data acquisition function 67 of the lease execution server 40 acquires weather information from the weather information source 15 via the Internet 14 and the IF means 20A as shown in FIG.

  In the next step 208, the usage fee is calculated based on the usage condition data by the basic fee calculation means 66A and the additional fee calculation means 66B. As shown in FIG. 15, the usage fee is calculated based on the location operation data and the weather data, is represented as a usage status report, and is stored. The calculation is executed by an application as shown in FIG.

  In step 209, the work content area data reception function 71 receives the work content area data sent from the work content area data transmission function 94 of the mobile terminal 80.

  In step 210, the visualization data calculation means 73 of the lease execution server 40 calculates the visualization data including the work time, work standard time, and usage fee data as shown in FIG. 17, and the display of the mobile terminal 80 Displayed on 80D.

In step 211, the mobile terminal 80, the camera 80E, reads the two-dimensional code M ₁ which is attached to the agricultural machine M, and displays the image in FIG. 9 is a check cleaning manual display 80D.

  In the next step 212, the image obtained after the farmer 12 has cleaned the inspection / cleaning part of the agricultural machine M in accordance with the inspection and cleaning manual is acquired by the camera 80E, and this is finalized by the final inspection data transmission function 99. The data is transferred to the inspection data reception function 75 (see FIG. 18).

  In step 213, the final inspection data transmitted from the mobile terminal 80 at the lease execution server 40 is compared with the pre-use image data registered in the pre-use image data storage means 55 of the lease execution server 40. Then, it is determined whether or not the degree of coincidence is greater than a certain level.

  As a result of the determination, if NO, the process returns to step 212, the agricultural machine is inspected and cleaned again, the image after cleaning is transferred to the lease execution server 40, and if YES, the intention of returning the agricultural machine is confirmed. As shown in FIG. 19, the appearance after cleaning is displayed on the display 20 </ b> D of the lease execution server 40.

  After the return intention is confirmed in the return intention display means 76, the farm machine transfer instruction information is transmitted from the lease execution server 40 to the transport company terminal 16A of the farm machine transport company 16 in step 215. From here, it returns to the agricultural machine arrival information reception of step 204.

  In the next step 216, an invoice for a usage fee is created and issued to the farmer who has indicated the intention to return the farm machine at the lease execution server 40.

  In the above-described embodiment, the final inspection means includes the inspection mark and the camera 80E. However, the present invention is not limited to this, and may be configured as follows.

  (1) For example, a two-dimensional code that is exposed only when the cleaning is properly performed is provided at the final inspection location, and this is photographed by the camera 80E. (2) The determination is made from the image acquired by the camera 80E and transmitted to the lease execution server 40.

  When shooting with the camera 80E, if the image of the same inspection / cleaning location differs greatly from the pre-use image on the lease execution server 40 side by the photographer, the determination is difficult. In such a case, for example, as shown in FIG. 20, only the contour OL of the pre-use image is displayed as an index on the display 80D of the mobile terminal 80 at the time of photographing, and the photographing object is matched with this contour OL. Good.

  It can be used for agricultural machine leasing that can efficiently combine agricultural machines such as combines between remote farms.

M ... Agricultural machinery M ₁ ... Matrix type 2D code OL ... Outline 10 ... Agricultural machinery share lease system 12, 12A-12G ... Farmer 14 ... Internet 15 ... Weather information source 16 ... Agricultural machinery transport company 20 ... Share lease contract creation section 20A, 80A ... Interface means (IF means)
20B, 40B, 80B ... Storage device 30, 60, 90 ... Control means 40 ... Lease execution server 80 ... Mobile terminal 80E ... Camera 112, 212 ... Share team

Claims (11)

A leasing company rents out the agricultural machine, which is a leased property, to one of the farmers who made up a share team consisting of a number of farmers with a share lease contract. An agricultural machine share lease execution system that bills each farmer for a lease fee,
A lease execution server of the leasing company;
A mobile terminal that is connectable to the lease execution server via a communication line and is equipped with the agricultural machine;
The mobile terminal is
The operation start time and operation end time of the farm machine, and at least position operation data storage means for acquiring position operation data including the position data of the farm machine at these times, and storing this,
Position operation data transmitting means for transmitting the stored position operation data to the lease execution server;
With
The lease execution server
Usage condition data receiving and storing means for receiving and storing input of usage condition data including information on the agricultural machine, a user of the agricultural machine and its farm field information, and work plan information;
Position operation data reception storage means for receiving and storing the input of the position operation data transmitted by the position operation data transmission means;
Usage charge calculation means for calculating the usage fee of the agricultural machine from the stored position operation data and usage condition data,
The usage fee calculation means includes:
A basic fee calculating means for calculating a basic fee determined by the farmer's desired lending days, a non-working reference date corresponding to the desired lending days, a desired work area, and a standard work time corresponding to the desired work area;
An additional fee calculating means for calculating an additional fee consisting of a sum of an excess time fee corresponding to the excess time exceeding the reference work time and an additional loan date fee corresponding to the desired loan days from the stored position operation data; , And
An agricultural machine share lease execution system configured to calculate the usage fee, which is the sum of the basic fee calculated by the basic fee calculation means and the additional fee calculated by the additional fee calculation means. . In claim 1,
The lease execution server
Meteorological data acquisition storage means for acquiring and storing meteorological data of a region including a field where the agricultural machine exists;
A weather unsatisfactory non-working day calculation storage unit for calculating and storing a day with a precipitation of 10 mm or more per day as a non-working day due to unsatisfactory weather from the weather data stored in the weather data acquisition storage unit;
Reduced number of days calculation storage for calculating and storing the number of days of difference obtained by subtracting the number of days of non-working reference date stored in the basic charge storage means from the stored number of days of non-working days due to bad weather Means,
A charge calculation storage means after unsatisfactory weather reduction for storing an amount obtained by multiplying the stored reduction days by a reduction per day from the usage fee;
An agricultural machine share lease execution system characterized by comprising: In claim 1 or 2,
The mobile terminal is
Work content area data acquisition storage means for acquiring and storing work content area data including data of work content by the farm machine and work area data for one day of the work day;
Work content area data transmitting means for transmitting the stored work content area data to the lease execution server,
The lease execution server
Work content area data receiving and storing means for receiving and storing work content area data sent from the work content area data transmitting means;
Calculates work time per unit area of the work based on the stored work content area data and work standard time data which is the national average of work time per unit area of the same type of work as the work content. Working standard time calculation storage means for storing
Visualization that calculates and stores visualization data including the work time per unit area and the work standard time data, today's work area data, today's usage fee data, and today's usage fee data Data calculation storage means;
Visualization data transmission means for transmitting the stored visualization data to the mobile terminal,
The mobile terminal is
Visualization data receiving storage means for receiving and storing visualization data transmitted from the lease execution server;
Visualization data display means for displaying the stored visualization data on a display;
An agricultural machine share lease execution system characterized by comprising: In any one of Claims 1 thru | or 3,
In the agricultural machine, a plurality of final cleaning points to be final cleaned before unloading after work is set, and a final inspection means for detecting whether or not these final cleaning points are cleaned is provided,
The mobile terminal is
Final inspection data acquisition storage means for acquiring and storing final inspection data of inspection results by the final inspection means;
Final inspection data transmitting means for transmitting the stored final inspection data to the lease execution server;
Have
The lease execution server
Final inspection data reception storage means for receiving and storing the transmitted final inspection data;
Return intention display means for displaying the stored final inspection data on the screen as an intention of returning the agricultural machinery;
An agricultural machine share lease execution system. In claim 4,
The mobile terminal comprises an optical reader;
In the agricultural machine, a cleaning mark that can be read by the optical reading device is attached to the final cleaning portion in a state where final cleaning is finished. The optical reading device and the cleaning mark are An agricultural machine share lease execution system comprising an inspection means. In claim 4,
The final inspection means of the mobile terminal is
The cleaning portion image acquisition storage means for photographing the final cleaning portion, acquiring and storing the image data, and the image data transmission means for transmitting the stored image data to the lease execution server. A featured agricultural machine share lease execution system. In any one of Claims 1 thru | or 6.
The lease execution server includes a contract creation unit, and the contract creation unit includes:
Share lease application data reception storage means for receiving share lease applications from multiple farmers and storing the share lease application data;
Share team composition condition data receiving storage means for receiving and storing share team composition conditions for composing a share team from the stored share lease application data;
Based on the stored share team composition conditions, share team composition means for composing a plurality of share teams composed of 2 to 30 farmers from the farmers who applied for the share lease,
Share lease contract creation storage means for creating and storing a share lease contract for each of the farmers who applied for the share lease;
Share lease contract dispatch instruction means for instructing shipment of each share lease contract to each farmhouse;
An established contract data transmission means for transmitting the created share lease contract data to the lease execution server;
Having
The share team composition means that each farmer's work period by the farm machine does not overlap, the total desired work area of the share team is greater than or equal to a set value, and the distance between farmers is less than or equal to a set value An agricultural machine share lease execution system configured to form the share team according to the above conditions. A leasing company leases the agricultural machine, which is a leased property, to one of a number of farmers who have lease contracts. After the work at that farmer is completed, it is transported to the next farmhouse and used sequentially for leasing to each farmhouse. An agricultural machine share lease execution method that charges a fee,
In accordance with an instruction from the lease execution server of the leasing company, a carrier carries the farm machine equipped with a mobile terminal to one of the plurality of farmers,
In the farmhouse, using the farm machine, the operation start time and the operation end time, and at least the position operation data including the position data of the farm machine at these times is acquired by the mobile terminal, and the Transmitting position operation data to the lease execution server;
In the lease execution server, based on the use condition data including the information on the agricultural machine, the user of the agricultural machine and the farm field information, work plan information and the position operation data, the usage fee of the agricultural machine is calculated,
A step of transmitting, by the mobile terminal, data on a state after cleaning of a plurality of final cleaning points set in the agricultural machine to the lease execution server;
In the lease execution server, it is determined whether or not cleaning is completed from the transmitted data in the state after cleaning, and if not, a signal for instructing cleaning again is positive. Transmitting a signal to confirm the intention of returning the agricultural machine to each of the mobile terminals;
When a signal for confirming the intention of returning the agricultural machine is received by the mobile terminal, a step of transmitting an instruction signal for transporting the agricultural machine to the next farmhouse from the lease execution server to the carrier;
When the mobile terminal receives a confirmation signal of the intention of returning the agricultural machine, charging the calculated usage price of the agricultural machine to the farmer who indicated the intention of returning the agricultural machine;
A farm machine share lease execution method characterized by sequentially repeating the above with each farmhouse. In claim 8,
And the step of accepting the agricultural machinery market share lease application from the plurality of farmers in the lease execution server of the leasing company,
In the leasing execution server, 2 to 30 farmers are grouped from the plurality of farmers to form one share team;
And creating for each farmer constituting each share team is the composition, one of the agricultural machine sequentially use turning share lease the contracts share team,
Having
The steps of composing the share team include that each farmer's work period by the farm machine does not overlap, the total desired work area of the share team is greater than or equal to a set value, and the distance between the farmers is less than or equal to a set value. The agricultural machine share lease execution method characterized by being performed according to the conditions of becoming. In claim 9,
In the share team composition step, when examining whether or not the work periods overlap, a farm machine share lease execution method is provided, wherein a buffer period of at least 3 days is provided as a farm machine movement period between farmers. In claim 9 or 10 ,
As the desired work area of the share team, when the work is rice harvesting and wheat harvesting, the sum of the first year rice harvesting area, the first year wheat harvesting area, and the second year rice harvesting area is set. An agricultural machine share lease execution method characterized by the above.