CN112836848B - Pasture breeding management method, management system and storage medium - Google Patents

Abstract

The invention discloses a pasture cultivation management method, which comprises the following steps: when a terminal receives a pasture breeding cost generation instruction, acquiring a cost prediction time period according to the cost generation instruction; acquiring livestock information, feed information and pasture management information prestored by the terminal, wherein the livestock information, the feed information and the pasture management information are information generated by actual pasture cultivation in a first preset time period; generating cost data corresponding to the pasture in the prediction time period according to the livestock information, the feed information and the pasture management information; and displaying the cost data according to a first preset display mode. The invention also discloses a pasture breeding management system and a computer readable storage medium. The method and the system predict the cultivation cost condition of a future time period through real-time operation data, so that the cultivation cost data can be analyzed to adjust the use cost, and the aim of reducing unnecessary financial consumption is fulfilled.

Description

Pasture breeding management method, management system and storage medium

Technical Field

The present invention relates to a pasture cultivation area, and more particularly, to a pasture cultivation management method, a management system, and a storage medium.

Background

With the development of the livestock breeding industry, breeding finances are slowly and continuously applied to a breeding system, and breeding benefits are changed for calculating the breeding cost consumed by each livestock every day and the weight gain every day. The existing breeding enterprises manage breeding finances in a finance management operation mode, in the mode, the finances cannot reduce unnecessary cost which is consumed or lost no matter how the finances are calculated, namely, the loss or the mistake which occurs cannot be returned, so that the income of the enterprises for obtaining breeding households is greatly influenced, and serious loss even occurs to serious people.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention mainly aims to provide a pasture cultivation management method, and aims to solve the technical problem that unnecessary expenses cannot be returned due to the fact that cultivation financial conditions cannot be predicted in the prior art.

In order to achieve the above object, the present invention provides a pasture cultivation management method, which comprises the following steps:

when a terminal receives a pasture breeding cost generation instruction, acquiring a cost prediction time period according to the cost generation instruction;

acquiring livestock information, feed information and pasture management information prestored by the terminal, wherein the livestock information, the feed information and the pasture management information are information generated by actual pasture cultivation in a first preset time period;

generating cost data corresponding to the pasture in the prediction time period according to the livestock information, the feed information and the pasture management information;

and displaying the cost data according to a first preset display mode.

Optionally, the step of generating cost data corresponding to the pasture in the predicted time period according to the livestock information, the feed information and the pasture management information includes:

calculating the average cost of single livestock according to the feed cost, the cost deviation value, the average quantity of livestock and the average cost of pasture management in each second preset time period, wherein the duration of the second preset time period is less than that of the first preset time period, the feed information comprises the feed unit price and the consumption quantity of the feed in each second preset time period, and the livestock information comprises the average quantity of the livestock in each second preset time period;

and determining cost data corresponding to the prediction time period according to the average cost of the single livestock and the quantity of the livestock in the prediction time period.

Optionally, before the step of calculating the average cost of the individual livestock according to the feed cost of the livestock, the cost deviation value, the average quantity of the livestock and the average cost of the pasture management in each second preset time period, the method further comprises:

after livestock information and feed information prestored in the terminal are obtained, determining the average cost of the feed of each livestock corresponding to a single livestock according to the type of the feed, the unit price corresponding to each type of feed, the type of the livestock and the required amount of the feed corresponding to each livestock;

and calculating the feed cost of the livestock in each second preset time period according to the quantity of each type of livestock in each second preset time period and the average feed cost of each type of livestock corresponding to a single livestock.

Optionally, after the step of calculating the feed cost of the livestock in each second preset time period according to the number of each type of livestock in each second preset time period and the average feed cost of each type of livestock corresponding to a single livestock, the method further comprises:

determining the average feed cost of the livestock in each second preset time period according to the number of the second preset time periods in the first preset time period and the feed cost of the livestock corresponding to each second preset time period;

and determining a cost deviation value according to the average feed cost of the livestock in each second preset time period, the feed cost of the livestock in each second preset time period and the number of the second preset time periods in the first preset time period.

Optionally, the method for managing farm cultivation further includes:

when a terminal receives a pasture breeding benefit generation instruction, generating income data corresponding to the prediction time period according to the livestock information, wherein the livestock information comprises actual in-out-site weight, price information and livestock quantity of livestock in a first preset time period;

generating benefit data corresponding to the prediction time period according to the cost data and the benefit data;

and displaying the benefit data according to a second preset display mode.

Optionally, the step of generating revenue data corresponding to the prediction time period according to the livestock information includes:

calculating to obtain the average income of single livestock according to the entrance and exit weight, market price and livestock quantity of the livestock in each second preset time period;

and calculating income data corresponding to the prediction time period according to the average income of the single livestock and the quantity of the livestock in the prediction time period.

Optionally, after the step of generating benefit data corresponding to the prediction time period according to the cost data and benefit data, the method further includes:

comparing the benefit data with historical benefit data corresponding to the same prediction time period;

and outputting cost modification data according to the cost data corresponding to the historical benefit data when the benefit data are smaller than the historical benefit data.

In order to achieve the above object, the present invention further provides a pasture cultivation management system, including:

the livestock management module is used for inputting and storing livestock information;

the feed management module is used for inputting and storing feed information;

the pasture management module is used for inputting and storing pasture management information; and

the financial management module is used for receiving a pasture cultivation cost generation instruction, acquiring livestock information from the livestock management module, acquiring feed information from the feed management module, acquiring pasture management information from the pasture management module, and generating cultivation cost in a prediction time period according to the livestock information, the feed information and the pasture management information.

The financial management module comprises a cost management subunit and a benefit management subunit, the cost management subunit is used for acquiring livestock information from the livestock management module, feed information from the feed management module and pasture management information from the pasture management module when receiving a pasture cultivation cost generation instruction, and the financial management module is also used for generating cultivation cost in a prediction time period according to the livestock information, the feed information and the pasture management information;

and the benefit management subunit is used for acquiring livestock information from the livestock management module when receiving the livestock breeding benefit generation instruction, and generating breeding benefits in a prediction time period according to the livestock information.

In addition, to achieve the above object, the present invention further provides a computer-readable storage medium, wherein the computer-readable storage medium stores thereon a pasture cultivation management program, and the pasture cultivation management program, when executed by a processor, implements the steps of the pasture cultivation management method as described above.

The pasture cultivation management method, the pasture cultivation management system and the computer readable storage medium provided by the embodiment of the invention are characterized in that actual pasture cultivation information of a historical first preset time period is stored in the pasture cultivation management system in advance, when a terminal receives a pasture cultivation cost generation instruction, a cost prediction time period is determined according to the generated instruction information, then the terminal obtains livestock information, feed information and pasture management information which are stored in the pasture management system in advance, cost data corresponding to the pasture in the prediction time period is generated according to the livestock information and the feed information and the pasture management information, and the corresponding cost data is displayed in a first preset mode, so that the cost data in the prediction time period can be obtained visually. Therefore, the method and the system predict the cultivation cost condition of a future time period through the real-time operation data, so that the cultivation cost data can be analyzed to adjust the use cost, and the aim of reducing unnecessary financial consumption is fulfilled.

Drawings

Fig. 1 is a schematic terminal structure diagram of a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of a pasture cultivation management method according to a first embodiment of the present invention;

FIG. 3 is a schematic flow chart of a pasture cultivation management method according to a second embodiment of the present invention;

FIG. 4 is a schematic flow chart of a third embodiment of the pasture cultivation management method of the present invention;

fig. 5 is a schematic flow chart of a fourth embodiment of the pasture cultivation management method of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The main solution of the embodiment of the invention is as follows: when a terminal receives a pasture breeding cost generation instruction, acquiring a cost prediction time period according to the cost generation instruction; acquiring livestock information, feed information and pasture management information prestored by the terminal, wherein the livestock information, the feed information and the pasture management information are information generated by actual pasture cultivation in a first preset time period; generating cost data corresponding to the pasture in the prediction time period according to the livestock information, the feed information and the pasture management information; and displaying the cost data according to a first preset display mode.

As shown in fig. 1, fig. 1 is a schematic terminal structure diagram of a hardware operating environment according to an embodiment of the present invention.

The terminal provided by the embodiment of the invention can be terminal equipment with a display function and a calculation function, such as a smart phone, a computer, a tablet computer and the like.

As shown in fig. 1, the terminal may include: a processor 1001, e.g. a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., a WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the terminal structure shown in fig. 1 is not intended to be limiting and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, a memory 1005, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and a pasture cultivation management program.

In the terminal shown in fig. 1, the network interface 1004 is mainly used for connecting to a backend server and performing data communication with the backend server; the user interface 1003 is mainly used for connecting a client (user side) and performing data communication with the client; and the processor 1001 may be configured to call the pasture cultivation management program stored in the memory 1005 and perform the following operations:

when a terminal receives a pasture breeding cost generation instruction, acquiring a cost prediction time period according to the cost generation instruction;

acquiring livestock information, feed information and pasture management information prestored by the terminal, wherein the livestock information, the feed information and the pasture management information are information generated by actual pasture cultivation in a first preset time period;

generating cost data corresponding to the pasture in the prediction time period according to the livestock information, the feed information and the pasture management information;

and displaying the cost data according to a first preset display mode.

Further, the processor 1001 may call a network operation control application stored in the memory 1005, and also perform the following operations:

calculating the average cost of single livestock according to the feed cost, the cost deviation value, the average quantity of livestock and the average cost of pasture management in each second preset time period, wherein the duration of the second preset time period is less than that of the first preset time period, the feed information comprises the feed unit price and the consumption quantity of the feed in each second preset time period, and the livestock information comprises the average quantity of the livestock in each second preset time period;

and determining cost data corresponding to the prediction time period according to the average cost of the single livestock and the quantity of the livestock in the prediction time period.

Further, the processor 1001 may call a network operation control application stored in the memory 1005, and also perform the following operations:

after livestock information and feed information prestored in the terminal are obtained, determining the average cost of the feed of each livestock corresponding to a single livestock according to the type of the feed, the unit price corresponding to each type of feed, the type of the livestock and the required amount of the feed corresponding to each livestock;

and calculating the feed cost of the livestock in each second preset time period according to the quantity of each type of livestock in each second preset time period and the average feed cost of each type of livestock corresponding to a single livestock.

Further, the processor 1001 may call a network operation control application stored in the memory 1005, and also perform the following operations:

determining the average feed cost of the livestock in each second preset time period according to the number of the second preset time periods in the first preset time period and the feed cost of the livestock in each second preset time period;

and determining a cost deviation value according to the average feed cost of the livestock in each second preset time period, the feed cost of the livestock in each second preset time period and the number of the second preset time periods in the first preset time period.

Further, the processor 1001 may call a network operation control application stored in the memory 1005, and also perform the following operations:

when a terminal receives a pasture breeding benefit generation instruction, generating income data corresponding to the prediction time period according to the livestock information, wherein the livestock information comprises actual in-out-site weight, price information and livestock quantity of livestock in a first preset time period;

generating benefit data corresponding to the prediction time period according to the cost data and the benefit data;

and displaying the benefit data according to a second preset display mode.

Further, the processor 1001 may call a network operation control application stored in the memory 1005, and also perform the following operations:

calculating to obtain the average income of single livestock according to the entrance and exit weight, market price and livestock quantity of the livestock in each second preset time period;

and calculating income data corresponding to the prediction time period according to the average income of the single livestock and the quantity of the livestock in the prediction time period.

Further, the processor 1001 may call a network operation control application stored in the memory 1005, and also perform the following operations:

comparing the benefit data with historical benefit data corresponding to the same prediction time period;

and outputting cost modification data according to the cost data corresponding to the historical benefit data when the benefit data are smaller than the historical benefit data.

According to the scheme, when the terminal receives a pasture cultivation cost generation instruction, the corresponding prediction time interval is determined according to the generation instruction, livestock information, feed information and pasture cultivation management information of historical first preset time are obtained from a pasture cultivation management system, cost data corresponding to a pasture in a prediction time period are generated according to the livestock information, the feed information and the pasture cultivation management information, and the corresponding cost data are displayed in a first preset mode, so that the cost data in the prediction time period are obtained visually. Therefore, enterprises can obtain the cultivation cost condition of the prediction time period through the real-time operation data, and the use cost is adjusted through analyzing the cultivation cost data, so that the aim of reducing unnecessary financial consumption is fulfilled.

Referring to fig. 2, a first embodiment of a pasture cultivation management method according to the present invention provides a pasture cultivation management method, including:

step S10, when the terminal receives a pasture cultivation cost generation instruction, a cost prediction time period is obtained according to the cost generation instruction;

step S20, livestock information, feed information and pasture management information prestored by the terminal are obtained, wherein the livestock information, the feed information and the pasture management information are information generated by actual pasture cultivation in a first preset time period;

step S30, generating cost data corresponding to the pasture in the prediction time period according to the livestock information, the feed information and the pasture management information;

and step S40, displaying the cost data according to a first preset display mode.

The execution main body of the embodiment of the invention is a computer or a tablet personal computer and the like, the terminal is provided with a display screen, and the display screen is used for displaying each module of the pasture cultivation management system and specifically comprises a livestock management module, a feed management module, a pasture management module and a financial management module. The livestock management module is used for inputting and storing real-time information of livestock; the feed management module is used for inputting and storing real-time information of the feed; the pasture management module is used for inputting and storing real-time pasture management information; the financial management module includes the cost management subunit, the cost management subunit is used for receiving when pasture breed cost generates the instruction, follows the livestock management module acquires livestock information, follows the fodder management module acquires the fodder information, follows the pasture breed management module acquires the pasture breed management information, the financial management module still is used for the basis livestock information, fodder information and the pasture breed management information generate the breed cost in the prediction time quantum. The system comprises a plurality of modules, a display interface and a control module, wherein each module is provided with a menu window for selecting a preset time interval, different preset time intervals can be selected through the menu windows, the preset time intervals are used for inquiring corresponding information of each module in different preset time periods, and in addition, the information of the corresponding modules can be modified aiming at the real-time culture condition in the culture process of a pasture on the display interface after inquiry.

The preset time period can be three months or six months or even longer, and is recorded as a historical first preset time period, the first preset time period is divided into a plurality of independent second preset time periods in the process of predicting cost data in a future time period according to the cost data in the historical first preset time period, and the independent second preset time periods are convenient for counting livestock information, feed information and pasture breeding management information in different time periods. The livestock information comprises the type, the quantity, the entrance weight, the entrance price, the departure weight and the departure price of livestock in each second preset time period of the historical first preset time period, and the feed information comprises the type of feed, the unit price of each type of feed and the consumption of the corresponding feed in each second preset time period. The livestock information, the feed information and the pasture management information are stored in a pasture cultivation management system, after the terminal receives the cultivation cost generation instruction, the terminal captures the livestock information, the feed information and the pasture cultivation management information in a first preset time period from the pasture cultivation management system, and the information is updated in real time according to the actual cultivation condition of the pasture, so that the information data of historical first preset time based on each prediction time interval are the latest data, and the accuracy of prediction is guaranteed.

Specifically, when the display interface of the terminal display screen is the financial management module, the cost management subunit of the financial management module is triggered by a user, a selectable prediction time interval pops up on the display interface of the terminal, a prediction time period can be selected through the terminal, and the terminal receives a cost generation instruction. It should be noted that the corresponding durations of the predicted time period and the historical first preset time period can be flexibly set, and the corresponding durations may be the same or different.

Further, the pasture displays the cost data corresponding to the prediction time period through a terminal, the terminal displays the cost data according to a first preset display mode, the first preset display mode comprises at least one of table display and graphic display, the graphic display comprises at least one of a graph, a histogram and a pie chart, concretely, the cost data of livestock in different prediction time periods can be obtained through the livestock information, the feed information and the actual pasture breeding management information of the historical first preset time period, the different prediction time periods are determined through the prediction time period on an optional prediction time interval after the terminal triggers the cost management subunit, the range of the selection interval is certain, when the terminal displays the cost data of the livestock in different prediction time periods, the terminal firstly needs to obtain the cost data of a plurality of different prediction intervals, and after the terminal acquires the cost data of the livestock in the different prediction time periods, storing and marking the cost data of the livestock in the different prediction time periods. Then the terminal can grab the stored cost data of the livestock in different prediction time periods and display the data through a table, and can also form a graph of the cost data according to the mark points, wherein the graph can be formed by directly connecting the mark points, and the change amplitude of the cost in different prediction time periods can be clearly seen from the graph; the mark point can be used as a central point to generate a histogram, and cost prediction data of any prediction time period can be displayed on the histogram in a more straight and white manner; the method can also be a pie chart which can display the cost ratio of different prediction time intervals in the prediction time period.

According to the scheme, when the terminal receives a pasture cultivation cost generation instruction, the corresponding prediction time interval is determined according to the generation instruction, livestock information, feed information and pasture cultivation management information of historical first preset time are obtained from a pasture cultivation management system, cost data corresponding to a pasture in a prediction time period are generated according to the livestock information, the feed information and the pasture cultivation management information, and the corresponding cost data are displayed in a first preset mode, so that the cost data in the prediction time period are obtained visually. Therefore, enterprises can obtain the cultivation cost condition of the prediction time period through the real-time operation data, and the use cost is adjusted through analyzing the cultivation cost data, so that the aim of reducing unnecessary financial consumption is fulfilled.

Further, referring to fig. 3, a second embodiment of the pasture cultivation management method according to the present invention provides a pasture cultivation management method, based on the above embodiment shown in fig. 2, the step S30 includes:

step S31, calculating the average cost of single livestock according to the feed cost, the cost deviation value, the average quantity of livestock and the average cost of pasture management in each second preset time period, wherein the duration of the second preset time period is less than that of the first preset time period, the feed information comprises the feed unit price and the consumption quantity of the feed in each second preset time period, and the livestock information comprises the average quantity of the livestock in each second preset time period;

specifically, the feed cost, the cost deviation value, the average number of livestock and the average cost of pasture management are all data information in each second preset time period. Obtaining the feed cost, the cost deviation value, the livestock quantity and the average cost of the pasture cultivation management in each second preset time period, adding the feed cost, the cost deviation value and the average cost of the pasture cultivation management in each second preset time period to obtain the cost of all the livestock corresponding to each second preset time period, dividing the cost of all the livestock in each second preset time period by the average quantity of the livestock corresponding to each second preset time period to obtain the average cost of a single livestock, namely the average cost of the single livestock (the feed cost of the livestock in each second preset time period + the cost deviation value + the average cost of the pasture cultivation management)/the average livestock quantity in each second preset time period, wherein the total quantity of the livestock in each second preset time period is added to obtain the total quantity of the livestock in the first preset time period, dividing the total quantity of the livestock by the quantity of the second preset time period in the first preset time period to obtain the average quantity of the livestock in each second preset time period, namelyΔs＝(d1+d2+...+dn) N, where Δ s represents each of the second predetermined time periodsDn represents the number of livestock in each second preset time period, n represents the number of livestock in the first preset time period; the average pasture breeding management cost is obtained from the wage cost, the consumable cost and the equipment cost within the first preset time, namelyΔC＝((a1+b1+c1)+(a2+b+c2)+...+(an+bn+cn) Where Δ C represents average pasture farming management cost per second preset time period, an represents payroll cost per second preset time period, bn represents consumable cost per second preset time period, cn represents equipment cost per second preset time period, and n represents the number of second preset time periods of the historical first preset time period.

And step S32, determining cost data corresponding to the prediction time period according to the average cost of the single livestock and the quantity of the livestock in the prediction time period.

Specifically, the number of livestock in the prediction time period comprises two parts: the number of the existing livestock and the estimated calving head number are assumed to correspond to the yield of one animal per birth of the livestock, namely one primary livestock. And multiplying the average cost of the single livestock by the number of the livestock in the prediction time period to obtain cost data corresponding to the prediction time period, namely the cost corresponding to the prediction time period is the average cost of the single livestock and the number of the livestock in the prediction time period.

According to the embodiment of the invention, the cost of all livestock in the corresponding preset time period is obtained according to the feed cost, the cost deviation value and the average pasture management cost in each second preset time period, the average cost of single livestock is obtained through calculation according to the average quantity of the livestock in the preset time period, and the cost data corresponding to the prediction time period can be obtained through the quantity of the livestock in the prediction time period, so that enterprises can obtain the breeding cost condition of the prediction time period through real-time operation data, and can adjust the use cost through analyzing the breeding cost data, and the purpose of reducing unnecessary financial consumption is realized.

Further, referring to fig. 4, a third embodiment of the method for managing farm cultivation according to the present invention provides a method for managing farm cultivation, which, based on the above embodiment shown in fig. 3, further comprises, before the step of calculating the average cost of each animal according to the feed cost, the cost deviation value, the average number of animals and the average cost of farm management for each second preset time period:

step S21, after livestock information and feed information prestored in the terminal are obtained, determining the average cost of the feed of each livestock corresponding to a single livestock according to the type of the feed, the unit price corresponding to each type of feed, the type of the livestock and the required amount of the feed corresponding to each livestock;

step S22, calculating the feed cost of the livestock in each second preset time period according to the quantity of each type of livestock in each second preset time period and the average feed cost of each type of livestock corresponding to each type of livestock;

step S23, determining the average feed cost of the livestock in each second preset time period according to the number of the second preset time periods in the first preset time period and the feed cost of the livestock in each second preset time period;

and step S24, determining a cost deviation value according to the average feed cost of the livestock in each second preset time period, the feed cost of the livestock in each second preset time period and the number of the second preset time periods in the first preset time period.

Specifically, (1) calculating the average cost of the feed of each livestock corresponding to each livestock:

wherein,

representing the average cost of feed for each individual animal per animal, w being the amount of feed consumed per feed per second predetermined time, x representing the feed unit price per feed. It will be appreciated that the feed required for each animal is a mixed combination of feeds of different types, and therefore the calculation according to the above formula results in each animal being fed to the animalThe livestock correspond to the average cost of the feed of the single livestock, and the feed corresponding to the average cost of the feed is also the feed after mixing and matching.

(2) Calculating the feed cost of the livestock in each second prediction time period:

wherein x denotes the feed cost of the livestock for each second preset time period, pn denotes the average feed cost of each livestock for a single livestock, and sn denotes the number of each livestock for each second preset time period. It will be appreciated that the animals for each of the second predetermined periods of time are comprised of different types of animals, and that the feed required for each type of animal is mixed and matched for each different type of animal. Therefore, the feed cost of each livestock in each preset time period corresponding to each type of livestock can be obtained by multiplying the feed cost of each livestock in each preset time period corresponding to each type of livestock by the number of each livestock in each preset time period corresponding to the feed.

(3) Calculating a cost deviation value in each second preset time period:

wherein m represents the total cost of feed for the livestock over the historical first predetermined period of time.

Where Δ m represents the average feed cost of the livestock per second predetermined period of time.

Wherein Δ d represents a cost deviation value in each second preset time period, and it can be understood that the cost of each second preset time period, which is calculated from the average feed cost of livestock in each second preset time period and the feed cost of livestock in each second preset time period, floats up and down, and is the cost deviation value in each second preset time period.

In the embodiment of the invention, the terminal firstly determines the average feed cost of each livestock corresponding to a single livestock according to the livestock information and the feed information in the historical preset time period, then obtains the feed cost of the livestock in each second preset time period according to the quantity of different types of livestock in each second preset time period and the corresponding average feed cost, further determines the cost deviation value in each second preset time period, then obtains the average cost of the single livestock according to the feed cost, the cost deviation value and the average pasture management cost, and determines the cost data corresponding to the prediction time period according to the average cost of the single livestock and the quantity of the livestock corresponding to the prediction time period. Therefore, enterprises can obtain the cultivation cost condition of the prediction time period through the real-time operation data, and the use cost is adjusted through analyzing the cultivation cost data, so that the aim of reducing unnecessary financial consumption is fulfilled.

Further, referring to fig. 5, a fourth embodiment of the pasture cultivation management method according to the present invention provides a pasture cultivation management method, which further includes:

step S50, when the terminal receives a pasture cultivation benefit generation instruction, generating income data corresponding to the prediction time period according to the livestock information, wherein the livestock information comprises actual in-out-site weight, price information and livestock quantity of livestock in a first preset time period;

specifically, the average income of a single livestock is calculated according to the entrance and exit weight, the market price and the quantity of the livestock in each second preset time period, wherein the income generating mode comprises a livestock weight increasing mode and a calving mode, and then income data corresponding to the forecasting time period are calculated according to the average income of the single livestock and the quantity of the livestock in the forecasting time period.

Step S60, generating benefit data corresponding to the prediction time period according to the cost data and the benefit data;

and step S70, displaying the benefit data according to a second preset display mode.

According to the scheme, the embodiment of the invention obtains the livestock on-off weight, market price and livestock quantity in the first preset time period in history to calculate the income value of livestock weight gain or calving, and then combines the cost data to obtain the benefit data corresponding to the prediction time period, and displays the benefit data in a second preset display mode for the enterprise to check, further comparing the benefit data with historical benefit data corresponding to the same prediction time period, and knowing whether the livestock earns money or not through comparison, or which month in the future the maximum profit will be, such that when the profit data is less than the historical profit data, and outputting cost modification data according to the cost data corresponding to the historical benefit data, so that the management system of the future farm is adjusted, and the culture profit is maximized.

In order to achieve the above object, an embodiment of the present invention further provides a pasture cultivation management system, including:

the livestock management module is used for inputting and storing livestock information;

the feed management module is used for inputting and storing feed information;

the pasture management module is used for inputting and storing pasture management information; and

the financial management module is used for receiving a pasture cultivation cost generation instruction, acquiring livestock information from the livestock management module, acquiring feed information from the feed management module, acquiring pasture management information from the pasture management module, and generating cultivation cost in a prediction time period according to the livestock information, the feed information and the pasture management information.

Specifically, the livestock management module stores the number, weight and price information of livestock in a historical preset time period; the feed management module stores unit prices and consumption quantities of corresponding feeds of livestock in historical preset time periods; the pasture management module stores wage cost, consumable cost and equipment cost in a historical preset time period. In addition, each management module is also provided with an editable part which is used for inputting and storing real-time data in the pasture cultivation management process.

The financial management module comprises a cost management subunit and a benefit management subunit, the cost management subunit is used for acquiring livestock information from the livestock management module, acquiring feed information from the feed management module and acquiring pasture management information from the pasture management module when receiving a pasture cultivation cost generation instruction, and the financial management module is also used for generating cultivation cost in a prediction time period according to the livestock information, the feed information and the pasture management information;

specifically, the terminal calculates and displays the cost data through the cost management subunit, the benefit management subunit of the terminal is used for calculating and displaying the income data of the enterprise in the prediction time period, and the income data is obtained in the form of livestock weight increment or calving.

And the benefit management subunit is used for acquiring livestock information from the livestock management module when receiving the livestock breeding benefit generation instruction, and generating breeding benefits in a prediction time period according to the livestock information.

When the terminal receives a pasture cultivation benefit generation instruction, the terminal obtains cultivation benefits in the corresponding prediction time period by capturing cost data of the cost management subunit and benefit data of the benefit management subunit, and subtracting the benefit data in the corresponding prediction time period from the cost data.

In addition, to achieve the above object, the present invention further provides a computer-readable storage medium, wherein the computer-readable storage medium stores thereon a pasture cultivation management program, and the pasture cultivation management program, when executed by a processor, implements the steps of the pasture cultivation management method as described above.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. A pasture cultivation management method is applied to a terminal and comprises the following steps:

when a terminal receives a pasture breeding cost generation instruction, acquiring a prediction time period corresponding to the cost according to the cost generation instruction;

acquiring livestock information, feed information and pasture management information prestored by the terminal; the livestock information, the feed information and the pasture management information are information generated by actual cultivation of a pasture in a historical first preset time period, the historical first preset time period is divided into a plurality of independent second preset time periods, the feed information comprises feed unit price and the consumption quantity of feed in each second preset time period, and the livestock information comprises the average quantity of livestock in each second preset time period;

determining the average cost of the single livestock according to the feed cost, the cost deviation value, the average quantity of the livestock and the average cost of the pasture management in each second preset time period, wherein the average cost of the single livestock = (the feed cost of the livestock in each second preset time period + the cost deviation value + the average cost of the pasture cultivation management in each second preset time period)/the average quantity of the livestock in each second preset time period is obtained according to the ratio of the total quantity of the livestock in the historical first preset time period to the quantity of the livestock in the historical first preset time period;

determining cost data corresponding to the prediction time period according to the average cost of the single livestock and the quantity of the livestock in the prediction time period, wherein the quantity of the livestock in the prediction time period comprises the quantity of the existing livestock and the expected calving head number;

and displaying the cost data according to a first preset display mode.

2. The method of pasture cultivation management of claim 1 wherein the step of calculating the average cost of individual animals based on the feed cost, cost bias, average number of animals and average cost of pasture management for each second predetermined period of time further comprises:

after livestock information and feed information prestored in the terminal are obtained, determining the average cost of the feed of each livestock corresponding to a single livestock according to the type of the feed, the unit price corresponding to each type of feed, the type of the livestock and the required amount of the feed corresponding to each livestock;

and calculating the feed cost of the livestock in each second preset time period according to the quantity of each type of livestock in each second preset time period and the average feed cost of each type of livestock corresponding to a single livestock.

3. The method of pasture cultivation management of claim 2 wherein, after the step of calculating the feed cost of the animals for each second predetermined period of time based on the quantity of each animal and the average cost of feed for each individual animal for each second predetermined period of time, further comprising:

determining the average feed cost of the livestock in each second preset time period according to the number of the second preset time periods in the first preset time period and the feed cost of the livestock corresponding to each second preset time period;

and determining a cost deviation value according to the average feed cost of the livestock in each second preset time period, the feed cost of the livestock in each second preset time period and the number of the second preset time periods in the first preset time period.

4. The pasture cultivation management method according to claim 1, further comprising:

when receiving a pasture cultivation benefit generation instruction, the terminal generates income data corresponding to the prediction time period according to the livestock information, wherein the livestock information comprises the actual in-out weight, price information and the quantity of livestock in the prediction time period;

generating benefit data corresponding to the prediction time period according to the cost data and the benefit data;

and displaying the benefit data according to a second preset display mode.

5. The method of claim 4, wherein the step of generating revenue data corresponding to the predicted time period from the livestock information comprises:

calculating to obtain the average income of single livestock according to the entrance and exit weight, market price and livestock quantity of the livestock in each second preset time period;

and calculating income data corresponding to the prediction time period according to the average income of the single livestock and the quantity of the livestock in the prediction time period.

6. The pasture cultivation management method of claim 4, wherein the step of generating benefit data corresponding to the prediction time period from the cost data and the profit data further comprises:

comparing the benefit data with historical benefit data corresponding to the same prediction time period;

and outputting cost modification data according to the cost data corresponding to the historical benefit data when the benefit data is smaller than the historical benefit data.

7. A pasture cultivation management system, characterized in that the pasture cultivation management system comprises:

the livestock management module is used for inputting and storing livestock information;

the feed management module is used for inputting and storing feed information;

the pasture management module is used for inputting and storing pasture management information; and

the financial management module is used for acquiring livestock information from the livestock management module, acquiring feed information from the feed management module and acquiring pasture management information from the pasture management module when receiving a pasture cultivation cost generation instruction; the livestock information, the feed information and the pasture management information are information generated by actual cultivation of a pasture in a historical first preset time period, the historical first preset time period is divided into a plurality of independent second preset time periods, the feed information comprises feed unit price and the consumption quantity of feed in each second preset time period, and the livestock information comprises the average quantity of livestock in each second preset time period;

the financial management module is further used for determining the average cost of the single livestock according to the feed cost, the cost deviation value, the average quantity of the livestock and the average cost of the pasture management in each second preset time period, wherein the average cost of the single livestock = (the feed cost of the livestock in each second preset time period + the cost deviation value + the average cost of the pasture cultivation management in each second preset time period)/the average quantity of the livestock in each second preset time period is obtained according to the ratio of the total quantity of the livestock in the historical first preset time period to the quantity of the livestock in the historical first preset time period; and determining the corresponding breeding cost in a prediction time period according to the average cost of the single livestock and the quantity of the livestock in the prediction time period, wherein the quantity of the livestock in the prediction time period comprises the quantity of the existing livestock and the quantity of the calving head.

8. The pasture farming management system of claim 7, wherein the financial management module comprises a cost management subunit and a benefit management subunit, the cost management subunit being configured to obtain livestock information from the livestock management module, feed information from the feed management module, and pasture management information from the pasture management module upon receiving a pasture farming cost generation instruction, the financial management module being further configured to generate a farming cost for a predicted period of time based on the livestock information, the feed information, and the pasture management information;

and the benefit management subunit is used for acquiring livestock information from the livestock management module when receiving the livestock breeding benefit generation instruction, and generating breeding benefits in a prediction time period according to the livestock information.

9. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a pasture farming management program which, when executed by a processor, implements the steps of the pasture farming management method according to any one of claims 1 to 6.

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