CN115187194B - Harvesting management system for silage crops - Google Patents

Abstract

The application relates to a harvesting management system of silage crops, comprising: the system comprises a first client, a second client, a third client and a fourth client; the first client is used for creating a harvesting group, and selecting silage carts to be added into the harvesting group; the second client is used for starting a harvesting flow when receiving approval passing information and pushing starting working information to the third client; the third client is used for starting a loading process after receiving the starting work information and sending loading application information to the second client; the fourth client is used for sending the weighing information to the corresponding third client, the first client and the second client. According to the technical scheme, suppliers, silage carts, transport carts and farms are integrated, so that all parties of a silage supply chain are associated, and data service is carried out on all parties of the silage supply chain; the data in the system can be shared and counted in real time, manual recording is not needed, the working efficiency is improved, and paperless office work is facilitated.

Description

Harvesting management system for silage crops

Technical Field

The application relates to the technical field of Internet, in particular to a harvesting management system for silage crops.

Background

Silage is produced by cutting corn plants including corncob, processing and fermenting. The harvesting process of silage corns is that a harvester harvests and pulverizes whole corns planted in a field, then the pulverized whole corns are transported to a cattle farm through a transport vehicle, and after fermentation for a certain time in a silage pit, livestock can be fed.

At present, the harvesting flow of silage corns is that after a supplier makes a contract with a pasture, the supplier negotiates with a grower, a silage owner and a carrier vehicle driver; by the time of harvesting, the suppliers are responsible for organizing harvesting and transportation. In the process of corn transportation from harvesting to cattle farm, each link basically has no electronic interaction process, various information needs to be manually recorded and managed, the efficiency is low, and a plurality of problems exist.

In the related art, various link disadvantages have a number of problems, such as: 1. during harvesting, the pasture must be dedicated to supervising the plot, ensuring that the source of the corn crop is a predetermined plot. 2. The driver of the transport vehicle, the grower, the supplier and the silage owner need to manually record and obtain the crop or the receiving data, the recording time is long, the checking is tedious, and the working efficiency is low. 3. The operation flow of the silage car driver and the pound room is complex, the secondary silage car driver needs to record the license plate number of the transport car for transporting the corn harvested by the secondary silage car driver, and a special person is arranged to the target cow yard pound room to record the weight of the goods transported by the transport car. In addition, the grower can arrange special personnel to the pound room to record weighing data, and the weight of goods produced by the land parcels is determined.

Disclosure of Invention

In order to overcome the problems in the related art at least to a certain extent, the present application provides a harvest management system for silage crops.

According to an embodiment of the present application, there is provided a harvest management system for silage crops, comprising: the system comprises a first client, a second client, a third client and a fourth client;

The first client is a client corresponding to a provider; the first client is used for creating a harvesting group, and selecting silage carts, plots and cattle farms to add into the harvesting group;

The second client is a client corresponding to the silage car; the second client is used for starting a harvesting flow when receiving approval passing information and pushing starting working information to the third client;

The third client is a client corresponding to the transport vehicle; the third client is used for starting a loading process after receiving the starting work information and sending loading application information to the second client; the third client is further used for sending weighing application information to the fourth client;

The fourth client is a client corresponding to the farm; the fourth client is used for sending the weighing information to the corresponding third client.

Further, the first client is specifically configured to: displaying corresponding work group items after the harvesting group is created; the work group items comprise state information, added silage car information, land block information and cattle farm information; the initial value of the state information is to be checked.

Further, the first client is further configured to send an approval request to the fourth client, where the approval request includes information about a work group entry;

After the fourth client receives the approval request, if the approval is passed, the approval passing information is respectively sent to the first client and the corresponding second client; the corresponding second client is the second client corresponding to the silage car under the work group entry.

Further, the first client is further configured to: after silage cars are selected to be added into the harvesting group, the work group items are sent to the second client corresponding to each silage car;

The first client is further configured to: after receiving the approval passing information, changing the state information of the work group items into work;

The second client is further configured to: after receiving the approval passing information, changing the state information of the work group item into work.

Further, the third client is further configured to: adding a work group through a two-dimensional code;

The second client is further configured to: displaying a start button when approval passing information is received; pushing the start working information to the corresponding third client when the start working button is triggered;

the third client is further configured to: displaying a loading application button when receiving the starting work information; and when the loading application button is triggered, sending loading application information to the corresponding second client.

Further, the second client is further configured to: after receiving the loading application information, adding the corresponding transport vehicle into a waiting list, and displaying a loading agreement button; pushing the loading agreement information to a third client corresponding to the transport vehicle in the waiting list when the loading agreement button is triggered;

The third client is further configured to: and after receiving the loading approval information, changing the state information in the work group entry into loading.

Further, the second client is further used for displaying a loading completion button; when a loading completion button is triggered, sending loading completion information to the third client;

When the third client receives the loading completion information, changing the state information in the work group entry into in-transit, and displaying an application weighing button; and when the weighing application button is triggered, sending weighing application information to the fourth client.

Further, the second client is further configured to: after loading of a certain transport vehicle is completed, prompting the next transport vehicle by voice; and when the loading button of the third client side of the transport vehicle ordered on the next transport vehicle is triggered, sending loading approval information to the corresponding third client side.

Further, the fourth client is further configured to: and obtaining the weighing weight, and processing the weighing weight according to a preset buckling rule to obtain the settlement weight.

Further, the buckling rule includes:

when the dry matter content is not less than 30%, the settlement weight=the weighing weight;

when 30% > dry matter content is not less than 20%, settlement weight=0.9×weighing;

when 20% > dry matter content is not less than 10%, settlement weight=0.6×weighing;

when the dry matter content is 10% > 0 or more, the settlement weight=0.

The technical scheme provided by the embodiment of the application has the following beneficial effects:

According to the technical scheme, suppliers, silage carts, transport carts and farms are integrated, so that all parties of a silage supply chain are associated, and data service is carried out on all parties of the silage supply chain; the data in the system can be shared and counted in real time, manual recording is not needed, the working efficiency is improved, and paperless office work is facilitated.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application as claimed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application.

FIG. 1 is an interactive flow diagram of a harvest management system for silage crops, according to an example embodiment.

FIG. 2 is a flowchart illustrating the execution of a harvest management system for silage crops, according to an example embodiment.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples do not represent all implementations consistent with the application. Rather, they are merely examples of methods and apparatus consistent with aspects of the application as detailed in the accompanying claims.

FIG. 1 is a flow chart illustrating a harvest management system for silage crops according to an example embodiment. The system comprises: the system comprises a first client, a second client, a third client and a fourth client.

The first client is a client corresponding to a provider; the first client is used for creating a harvesting group and selecting silage carts to add to the harvesting group.

The second client is a client corresponding to the silage car; the second client is used for starting a harvesting flow when receiving approval passing information and pushing starting working information to the third client.

The third client is a client corresponding to the transport vehicle; the third client is used for starting a loading process after receiving the starting work information and sending loading application information to the second client; the third client is further configured to send weighing application information to the fourth client.

The fourth client is a client corresponding to the farm; the fourth client is used for sending the weighing information to the corresponding third client, second client and first client. Meanwhile, the fourth client sends the corn quality index dry matter content to the first client, so that settlement according to the quality discourse is facilitated.

According to the technical scheme, suppliers, silage carts, transport carts and farms are integrated, so that all parties of a silage supply chain are associated, and data service is carried out on all parties of the silage supply chain; the data in the system can be shared and counted in real time, manual recording is not needed, the working efficiency is improved, and paperless office work is facilitated.

In some embodiments, the first client is specifically configured to: displaying corresponding work group items after the harvesting group is created; the work group entry comprises state information and added silage car information; the initial value of the state information is to be checked.

In some embodiments, the first client is further configured to send an approval request to the fourth client, where the approval request includes information about a work group entry;

After the fourth client receives the approval request, if the approval is passed, the approval passing information is respectively sent to the first client and the corresponding second client; the corresponding second client is the second client corresponding to the silage car under the work group entry.

In some embodiments, the first client is further configured to: after silage cars are selected to be added into the harvesting group, the work group items are sent to the second client corresponding to each silage car;

The first client is further configured to: after receiving the approval passing information, changing the state information of the work group items into work;

The second client is further configured to: after receiving the approval passing information, changing the state information of the work group item into work.

In some embodiments, the third client is further configured to: adding a work group through a two-dimensional code;

The second client is further configured to: displaying a start button when approval passing information is received; pushing the start working information to the corresponding third client when the start working button is triggered;

the third client is further configured to: displaying a loading application button when receiving the starting work information; and when the loading application button is triggered, sending loading application information to the corresponding second client.

In some embodiments, the second client is further configured to: after receiving the loading application information, adding the corresponding transport vehicle into a waiting list, and displaying a loading agreement button; pushing the loading agreement information to a third client corresponding to the transport vehicle in the waiting list when the loading agreement button is triggered;

The third client is further configured to: and after receiving the loading approval information, changing the state information in the work group entry into loading.

In some embodiments, the second client is further configured to display a loading complete button; and when the loading completion button is triggered, sending loading completion information to the third client. When the third client receives the loading completion information, changing the state information in the work group entry into in-transit, and displaying an application weighing button; and when the weighing application button is triggered, sending weighing application information to the fourth client.

In some embodiments, the second client is further configured to: after loading of a certain transport vehicle is completed, prompting the next transport vehicle by voice; and when the loading button of the third client side of the transport vehicle ordered on the next transport vehicle is triggered, sending loading approval information to the corresponding third client side.

In some embodiments, the fourth client is further configured to: and obtaining the weighing weight, and processing the weighing weight according to a preset buckling rule to obtain the settlement weight.

In some embodiments, the weight rule comprises:

when the dry matter content is not less than 30%, the settlement weight=the weighing weight;

when 30% > dry matter content is not less than 20%, settlement weight=0.9×weighing;

when 20% > dry matter content is not less than 10%, settlement weight=0.6×weighing;

when the dry matter content is 10% > 0 or more, the settlement weight=0.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in further detail with reference to the accompanying drawings.

The invention relates to a new generation intelligent pasture silage supply chain system which is created by combining Internet of things and Internet big data with silage harvest. The system sets a fixed mode flow, so that all sides of silage harvest comprise pastures, growers, silage owners and silage car drivers, interaction is generated among transport owners, operation data are shared in real time, the working efficiency is improved, the contact times among people are reduced, and paperless office work and epidemic situation protection are facilitated.

1. The operation is as follows:

Step 1: registering and logging in;

1) PC end:

The applicable person: a pasture group management background (directly logging in, provided by an account number good silage platform) and a cattle farm management background (to be registered, registration information comprises information such as position, name and the like, the position is convenient for a transport vehicle to transport goods for navigation use), and a cattle farm weighing person and a quality inspector log in at a pc end after being added by the cattle farm background;

2) APP end:

The applicable person: suppliers, silage car owners, silage car drivers, transport car drivers and growers (basic information is added during registration, and the two-dimensional codes are scanned or long-term two-dimensional code identification is used for downloading); pasture group leaders and cattle farm leaders (no registration, group and cattle farm background add-in is required).

Step 2: perfecting information

1) The silage owner needs to add vehicle information (license plate number, production place, model number, engine, frame number, header length and the like), and authorizes the driver to drive the appointed vehicle (authorized name and mobile phone number);

2) The planting households add land block positions and acres.

Step 3: association with

1) Pasture adds suppliers and task volumes. Group addition subordinate pastures and task volumes, cow farm agrees to complete association (association between groups, pastures, suppliers).

2) After a provider scans the silage owners and the special two-dimension codes of the growers and adds the silage owners and the growers as friends, then the cattle farm and the land block are selected, the silage machine creates a working group, the pasture audit is reported, and after the pasture audit is passed, the two-dimension codes of the working group are generated. The carrier vehicle is registered and then is scanned for a 'two-dimension code of a working group' provided by a supplier, and the two-dimension code is added into a working group, which is shown in figure 1 (the association among groups, pastures, suppliers, silage owners, silage drivers and carrier vehicles is generated).

Creating a harvesting panel: the suppliers log in the silage app well, a harvesting group can be created, the harvesting group has three types of on-site cutting, spot stock and self-harvesting, the on-site cutting needs to be performed on the cattle farm, the land parcels, the silage is already in the hand of the suppliers, the on-site cutting only needs to be performed on the cattle farm, and the self-harvesting is the self-harvesting of the suppliers, and the land parcels and silage machines need to be selected.

Adding contacts: the suppliers have three contacts, namely a cattle farm, a silage car and a land block, the cattle farm needs to be signed under the line of the suppliers and the cattle farm, then the suppliers are added to the system by a cattle farm manager, the silage car needs to be added by the suppliers, the silage car owners are friends, the silage cars under the names of the silage car owners can be displayed in the contacts of the suppliers, the land block is divided into a cooperative land block and an own land block, the cooperative land block needs to be added by the suppliers, the farmers are friends, the land block of the farmers can appear in the cooperative land block, and the land block of the own land block is the land block added by the suppliers.

Step 4: workflow process

After the pasture determines the time of land harvesting, the supplier work group begins harvesting. The silage truck clicks on the start of harvesting on its APP, and the specific flow is shown in fig. 1 and 2.

1) The transport vehicle sweeps the sign indicating number and adds the transport team, shows the transportation order, prevents to insert team and chaotic state. When the transport vechicle is weighted, two cameras gather license plate number and wagon balance weight, guarantee that data are true and reliable.

2) When the vehicle arrives at the pasture and clicks on "apply for weighing", after entering the field and weighing, a weighing person fills out the gross weight (the gross weight can also be identified by the camera of the Internet of things and the system is automatically filled in), a bar code and a sample bag required by sample quality inspection are printed for a vehicle driver, the driver transfers to a quality inspector in front of a cellar, after unloading, the vehicle goes out of the field and weighs again, and the platform system automatically calculates the net weight of the cargoes carried by the vehicle. At this time, the data is shared in real time to the carrier, silage car driver, silage car owner, supplier, farm group head office.

And uploading the detection result to a platform by a quality inspector, and sharing the quality inspection result to suppliers, pastures and group head companies in real time.

And (5) button weight management: logging in a cattle farm management background, setting a buckling rule in buckling management, and firstly setting a qualified line, for example, the qualified line is set to 30%, so that buckling is not needed when the dry matter content is greater than or equal to 30%, and then the following steps are divided into three steps, for example, the following steps can be set as follows:

30% < = 10% by weight at dry matter content < 20%; weight 40% at 20% < = dry matter content < 10%; 10% < = weight 100% when dry matter content < 0%. The meaning is that when the dry matter is less than 30% and more than 20%, the net weight of 100 tons is 10 tons, and 90 tons are settled; when the dry matter is less than 20% and more than 10%, the net weight of 100 tons is deducted by 40 tons, and 60 tons are settled; when the dry matter is less than 10%, the net weight of 100 tons is 100 tons and 0 tons are settled.

2. Obtained data

1. Group: the harvesting details of the group and each pasture are known, including quality inspection indexes (such as average dry matter), weighing total amount, harvesting progress, number of silage cars in operation, transport cars and abnormal state (quality inspection unqualified silage weighing details).

2. The cattle farm can check the average dry matter, the weighing weight and the harvesting progress of silage corns provided by the cattle farm in total and various suppliers; the number of the transport vehicles and silage vehicles in operation, and abnormal state; all information (weighted single number, weighted time, gross weight, net weight, quality inspection, workgroup, associated suppliers, etc.) transported by each transport vehicle.

3. The suppliers: total weight, mass, and weight history data for each cattle farm supply; silage owner harvesting weight and weighting historical data; the weight of the harvested land parcels of the farmers and weighting historical data.

4. Silage car driver: total amount harvested, total amount harvested for each supplier, weighting history data under each supplier of service, including license plate number, pound sheet number, transit time, transit weight.

5. Silage owner: harvesting the total amount, namely harvesting the total amount for each supplier, and authorizing a driver to harvest the total amount, wherein related weighing historical data comprise license plate numbers, pound sheets, transportation time and transportation weight; the number of the transport vehicles and silage vehicles in the work, the number of the vehicles to be loaded, the abnormal state and the own exclusive two-dimensional code.

6. Transport vehicle: weight is transported, and each supplier is given weight transported and historical weighting data. And the exclusive two-dimensional code of the self.

7. Planting households: total amount harvested, weight harvested at each individual plot and weighting history data for each supplier.

The application adopts the technical scheme and has the following beneficial effects: 1. the parties to the silage supply chain are associated and the data is served to the parties of the silage supply chain. 2. After determining the land block, the cattle farm does not need to be supervised by a special person; after serial operations such as the application loading of the transport vechicle through scanning the two-dimensional code of workgroup, transport to the cattle farm and just can take part in the transportation of next round after weighing, the transport vechicle has traceability. 3. The data is shared and counted in real time, manual recording is not needed, the working efficiency is improved, and paperless office work is facilitated. 4. The application loading is automatic to order the transport vehicles, display the current sequence, wait for the number of people, and the like, so that confusion is avoided. 5. The butt joint process between the transport vehicle driver and the weighing person is simplified.

It is to be understood that the same or similar parts in the above embodiments may be referred to each other, and that in some embodiments, the same or similar parts in other embodiments may be referred to.

It should be noted that in the description of the present application, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, in the description of the present application, unless otherwise indicated, the meaning of "plurality" means at least two.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and further implementations are included within the scope of the preferred embodiment of the present application in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present application.

It is to be understood that portions of the present application may be implemented in hardware, software, firmware, or a combination thereof. In the above-described embodiments, the various steps or methods may be implemented in software or firmware stored in a memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, may be implemented using any one or combination of the following techniques, as is well known in the art: discrete logic circuits having logic gates for implementing logic functions on data signals, application specific integrated circuits having suitable combinational logic gates, programmable Gate Arrays (PGAs), field Programmable Gate Arrays (FPGAs), and the like.

Those of ordinary skill in the art will appreciate that all or a portion of the steps carried out in the method of the above-described embodiments may be implemented by a program to instruct related hardware, where the program may be stored in a computer readable storage medium, and where the program, when executed, includes one or a combination of the steps of the method embodiments.

In addition, each functional unit in the embodiments of the present application may be integrated in one processing module, or each unit may exist alone physically, or two or more units may be integrated in one module. The integrated modules may be implemented in hardware or in software functional modules. The integrated modules may also be stored in a computer readable storage medium if implemented in the form of software functional modules and sold or used as a stand-alone product.

The above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, or the like.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present application have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the application, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the application.

Claims (2)

1. A harvest management system for silage crops, comprising:

the system comprises a first client, a second client, a third client and a fourth client;

The first client is a client corresponding to a provider; the first client is used for creating a harvesting group, and selecting silage carts, plots and cattle farms to add into the harvesting group;

The second client is a client corresponding to the silage car; the second client is used for starting a harvesting flow when receiving approval passing information and pushing starting working information to the third client;

The third client is a client corresponding to the transport vehicle; the third client is used for starting a loading process after receiving the starting work information and sending loading application information to the second client; the third client is further used for sending weighing application information to the fourth client;

the fourth client is a client corresponding to the farm; the fourth client is used for sending weighing information to the corresponding third client, the first client and the second client;

the first client is specifically configured to: displaying corresponding work group items after the harvesting group is created; the work group items comprise state information, added silage car information, land block information and cattle farm information; the initial value of the state information is to be checked;

the first client is further used for sending an approval request to the fourth client, wherein the approval request comprises relevant information of work group items;

after the fourth client receives the approval request, if the approval is passed, the approval passing information is respectively sent to the first client and the corresponding second client; the corresponding second client is a second client corresponding to the silage car under the work group;

the first client is further configured to: after silage cars are selected to be added into the harvesting group, the work group items are sent to the second client corresponding to each silage car;

The first client is further configured to: after receiving the approval passing information, changing the state information of the work group items into work;

The second client is further configured to: after receiving the approval passing information, changing the state information of the work group items into work;

the third client is further configured to: adding a work group through a two-dimensional code;

The second client is further configured to: displaying a start button when approval passing information is received; pushing the start working information to the corresponding third client when the start working button is triggered;

The third client is further configured to: displaying a loading application button when receiving the starting work information; when the loading application button is triggered, loading application information is sent to the corresponding second client;

The second client is further configured to: after receiving the loading application information, adding the corresponding transport vehicle into a waiting list, and displaying a loading agreement button; pushing the loading agreement information to a third client corresponding to the transport vehicle in the waiting list when the loading agreement button is triggered;

the third client is further configured to: after receiving the loading agreement information, changing the state information in the work group item into loading;

The second client is also used for displaying a loading completion button; when a loading completion button is triggered, sending loading completion information to the third client;

When the third client receives the loading completion information, changing the state information in the work group entry into in-transit, and displaying an application weighing button; when the weighing application button is triggered, sending weighing application information to a fourth client;

The second client is further configured to: after loading of a certain transport vehicle is completed, prompting the next transport vehicle by voice; when a loading button of a third client side of the transport vehicle ordered on the next transport vehicle is triggered, sending loading agreement information to the corresponding third client side;

The fourth client is further configured to: and obtaining the weighing weight and the dry matter content, and processing the weighing weight according to a preset weight buckling rule to obtain the settlement weight.

2. The system of claim 1, wherein the weight rule comprises:

when the dry matter content is not less than 30%, the settlement weight=the weighing weight;

when 30% > dry matter content is not less than 20%, settlement weight=0.9×weighing;

when 20% > dry matter content is not less than 10%, settlement weight=0.6×weighing;

when the dry matter content is 10% > 0 or more, the settlement weight=0.