CN111932153B

CN111932153B - Cargo distribution management system

Info

Publication number: CN111932153B
Application number: CN202010999163.0A
Authority: CN
Inventors: 刘旭文
Original assignee: Hebei Diye Technology Co ltd
Current assignee: Hebei DIYe Technology Co.,Ltd.
Priority date: 2020-09-22
Filing date: 2020-09-22
Publication date: 2021-01-12
Anticipated expiration: 2040-09-22
Also published as: CN111932153A

Abstract

The invention relates to a cargo delivery management system, which comprises an information input module, a matching module, a confirmation module, a verification module and a management module. The invention sets a plurality of preset matrixes in the management module, so that the management module can evaluate the single delivery of the distributors according to the user to adjust the integral value of the distributors in real time, sequentially adjust the single maximum number of the single receptions of the distributors according to different integral value standards in each area, flexibly adjust the auditing standard of the applicant applying for the employees in each delivery area according to different numbers of the distributors in each delivery area, and adjust the single maximum number of the single receptions of the distributors by using the integral as a judgment basis, thereby effectively ensuring the average income of the distributors in each area, balancing the number of the distributors in each area and effectively improving the distribution efficiency balance of the system.

Description

Cargo distribution management system

Technical Field

The invention relates to the technical field of logistics management, in particular to a cargo delivery management system.

Background

In recent years, with the continuous development of network technology, online shopping gradually replaces shopping in markets to become a daily consumption mode for many young people, and with the increase of goods, the logistics industry is also promoted to be rapidly developed.

However, in the prior art, various distribution software are focused on a first-line city with developed economy, and in an area with underdeveloped economy, the distribution software is difficult to meet the diversified demands of users. Meanwhile, due to the fact that the economic development is different among different areas, the situation that the same distance charges differently occurs, and therefore the number of the distributors in economically developed areas is too large and the distributors in economically undeveloped areas are too scarce.

Disclosure of Invention

Therefore, the invention provides a cargo distribution management system, which is used for solving the problem of poor distribution efficiency balance caused by the fact that balanced management cannot be carried out on distribution personnel in each area in the prior art.

To achieve the above object, the present invention provides a cargo distribution management system, including:

the information input module is used for acquiring distribution information; the distribution information comprises substituted distribution information and substituted purchase distribution information, when a user uses the system, the user terminal selects substituted service or substituted purchase service and inputs corresponding distribution information according to the selected service;

the matching module is connected with the information input module and used for matching the distributors according to the distribution information of the information input module input by the user, each distributor in a single distribution area has a corresponding integral, and the matching module sequentially sends the distribution information to the distribution terminals carried by each distributor according to the descending order of the integral;

the confirming module is connected with the matching module and used for generating a distribution order according to the feedback of the distribution terminal; when one distribution terminal receives the distribution information, the other distribution terminals cannot repeatedly receive the distribution information, when the distribution terminal receives the distribution information, the confirmation module draws up a distribution order according to the distribution information and sends the distribution order to the user terminal, and when the user terminal confirms, the confirmation module establishes the distribution order and carries a distributor receiving the distribution information to start distribution;

the verification module is connected with the confirmation module and is used for verifying the goods delivered by the deliverer; when a distributor distributes goods to a specified place, the distributor confirms that the goods distribution is completed on the distribution terminal, the distribution terminal transmits distribution completion confirmation information to the verification module, the verification module transmits verification information to the user terminal, and a user checks the goods and determines that the goods are qualified, confirms the verification information by using the user terminal and pays distribution fee to complete the distribution;

the management module is used for respectively managing the distribution information, the distributor points and the number of the distributors in each distribution area; a preset scoring grade matrix, an integral settlement matrix, a preset path length matrix, a preset charging matrix, a preset distribution area matrix, a preset distribution number matrix group, a preset auditing standard matrix group, a preset integral standard matrix group and a preset single maximum receiving number matrix group are arranged in the management module; the management module can evaluate the single delivery of the deliverers according to the user so as to adjust the integral value of the deliverers in real time, sequentially adjust the single maximum number of deliverers according to different integral value standards in each area, and respectively detect the number of the deliverers in each delivery area and the integral condition of each deliverer in a specified period; the management module can also flexibly adjust the auditing standard of the applicant applying for the employee deliverer in each delivery area according to the number of different deliverers in each delivery area.

Further, when the user selects the substitute service, the delivery information entered by the user to the user terminal includes: the system comprises user information, a goods taking address, a goods taking person contact way, a goods receiving address and a goods receiving person contact way; when the user chooses to purchase the service, the delivery information input to the user terminal by the user comprises the following steps: a goods name, a goods price, a purchase-by address, a consignee address, and a consignee contact.

Furthermore, a preset selling point quantity value is arranged in the management module, when a user selects a purchase-for-use service and inputs a goods name to the information input module, the management module can search the actual quantity value of the selling point selling the goods in the distribution area where the user is located according to the goods name, when the actual quantity value is larger than the preset quantity value, the management module judges that the purchase-for-use point does not need to be added, and when the actual quantity value is smaller than or equal to the preset quantity value, the management module enables the user to input the purchase-for-use point of the purchase-for-use goods to the user terminal.

Furthermore, a preset grading grade matrix R0 and a point settlement matrix S0 are arranged in the management module; for the preset scoring level matrix R0, R0= (R1, R2, R3, R4, R5), wherein R1 is the first scoring level of the S-level evaluation, R2 is the second scoring level of the a-level evaluation, R3 is the third scoring level of the B-level evaluation, R4 is the fourth scoring level of the C-level evaluation, and R5 is the fifth scoring level of the D-level evaluation; for the point settlement matrix S0, S0= (S1, S2, S3, S4, S5), where S1 is the first settlement point of point +2, S2 is the second settlement point of point +1, S3 is the third settlement point of point +0, S4 is the fourth settlement point of point-1, and S5 is the fifth settlement point of point-2;

when the distributor completes single distribution, the user can evaluate the distribution of the distributor through the user terminal, and when the evaluation of the user on the distributor is R, the management module compares the R with each parameter in the R0 matrix and changes the score S of the distributor according to the comparison result:

when R = R1, the management module changes the distributor' S points S to S + S1;

when R = R2, the management module changes the distributor' S points S to S + S2;

when R = R3, the management module changes the distributor' S points S to S + S3;

when R = R4, the management module changes the distributor' S points S to S + S4;

when R = R5, the management module changes the distributor' S points S to S + S5.

Furthermore, a preset path length matrix L0 and a preset charging matrix M0 are also arranged in the management module; for the preset path length matrix L0, L0= (L1, L2, L3, L4), where L1 is a first preset length, L2 is a second preset length, L3 is a third preset length, and L4 is a fourth preset length, and the preset lengths are gradually increased in sequence; for the preset charging matrix M0, M0= (M1, M2, M3, M4), where M1 is a first preset fee, M2 is a second preset fee, M3 is a third preset fee, and M4 is a fourth preset fee, and the preset fees gradually increase in sequence;

when the confirmation module draws up a delivery order, the confirmation module marks coordinates of a pickup address or a purchase substituting address and a receiving address on a map in a corresponding delivery area respectively, and automatically generates three preselected delivery routes, wherein the three preselected delivery routes comprise a shortest distance delivery route, a delivery route with a minimum route traffic light and a route with a highest overlap ratio with a route which is frequently traveled by a distributor, and after the distributor selects one route, the management module compares a total route L of the selected route with each numerical value in the L0 matrix:

when L is less than or equal to L1, the management module judges the fee charged by the distribution is M1;

when L is more than L1 and less than or equal to L2, the management module judges that the fee charged by the distribution is M2;

when L is more than L2 and less than or equal to L3, the management module judges that the fee charged by the distribution is M3;

when L is more than L3 and less than or equal to L4, the management module judges that the fee charged by the distribution is M4;

when the management module completes the determination of the delivery fee, the confirmation module plans the charging fee determined by the management module to the delivery order.

Furthermore, a preset distribution area matrix A0, a preset distribution people number matrix H0 and a preset auditing standard matrix B0 are arranged in the management module; for the preset delivery area matrix a0, a0= (a 1, a2, A3,. An), where a1 is a first preset delivery area, a2 is a second preset delivery area, A3 is a third preset delivery area, and An is An nth preset delivery area; for the preset number of people for delivery matrix groups H0, H0 (H1, H2, H3.., Hn), wherein H1 is a first preset number of people for delivery matrix, H2 is a second preset number of people for delivery matrix, H3 is a third preset number of people for delivery matrix, and Hn is an nth preset number of people for delivery matrix; for the preset auditing standard matrix group B0, B0 includes matrices B1, B2, B3,. and Bn, where B1 is a first preset auditing standard matrix, B2 is a second preset auditing standard matrix, B3 is a third preset auditing standard matrix, and Bn is an nth preset auditing standard matrix;

when a person applies for positions of distributors, the management module can audit the applicant according to the distribution area where the applicant requests to enter the position and the number of the distributors in the distribution area:

when the delivery area requested to be filled by the applicant is A1, the management module detects the number H of the existing distributors in the A1 delivery area in real time, compares the number H with each parameter in the H1 matrix, and selects a corresponding auditing standard from the B1 matrix according to the comparison result to audit the applicant;

when the delivery area requested to be filled by the applicant is A2, the management module detects the number H of the existing distributors in the A2 delivery area in real time, compares the number H with each parameter in the H2 matrix, and selects a corresponding auditing standard from the B2 matrix according to the comparison result to audit the applicant;

when the delivery area requested to be filled by the applicant is A3, the management module detects the number H of the existing distributors in the A3 delivery area in real time, compares the number H with each parameter in the H3 matrix, and selects a corresponding auditing standard from the B3 matrix according to the comparison result to audit the applicant;

when the delivery area requested by the applicant to enter is An, the management module detects the number H of the existing deliverers in the An delivery area in real time, compares the number H with each parameter in the Hn matrix, and selects a corresponding auditing standard from the Bn matrix according to the comparison result to audit the applicant.

Further, for the ith preset number of delivery persons matrix Hi, i =1, 2, 3,. ·, n, Hi = (Hi 1, Hi2, Hi3, Hi 4), where Hi1 is the first preset number of delivery persons in the ith delivery area, Hi2 is the second preset number of delivery persons in the ith delivery area, Hi3 is the third preset number of delivery persons in the ith delivery area, and Hi4 is the fourth preset number of delivery persons in the ith delivery area, the number of preset numbers of delivery persons increases gradually in order;

for the ith preset auditing standard matrix Bi, Bi = (Bi 1, Bi2, Bi3 and Bi 4), wherein Bi1 is a first preset auditing standard of the ith distribution area, Bi2 is a second preset auditing standard of the ith distribution area, Bi3 is a third preset auditing standard of the ith distribution area, Bi4 is a fourth preset auditing standard of the ith distribution area, and the strictness of each preset auditing standard is increased in a numerical sequence;

when the applicant applies for the ith delivery area deliverer, the management module can detect the number H of the current deliverers in the ith delivery area in real time and compares the number H with each parameter in the Hi matrix:

when H is less than or equal to Hi1, the management module selects the Bi1 standard to check the applicant;

when the Hi1 is more than H and less than or equal to Hi2, the management module selects the Bi2 standard to examine the applicant;

when the Hi2 is more than H and less than or equal to Hi3, the management module selects the Bi3 standard to examine the applicant;

when the Hi3 is more than H and less than or equal to Hi4, the management module selects the Bi4 standard to examine the applicant;

when H is more than Hi4, the management module judges that the number of the distributors in the ith distribution area is saturated, and the management module does not process the job application aiming at the ith distribution area;

and when the selection of the auditing standard is completed, the management module audits the applicant, and when the audit of the management module is qualified, the management module judges that the applicant is in work, establishes a distributor number for the applicant, issues a distribution terminal with a corresponding number for the applicant, and sets the initial score of the applicant to be 0.

Further, the management module is also provided with a preset integral standard matrix group J0 and a preset single maximum number matrix group K0; for the set of preset integration standard matrices J0, J0 includes matrices J1, J2, J3,.., Jn, where J1 is a first preset integration standard matrix, J2 is a second preset integration standard matrix, J3 is a third preset integration standard matrix, and Jn is an nth preset integration standard matrix; for the preset single maximum order matrix group K0, the K0 includes matrices K1, K2, K3,. and Kn, where K1 is a first preset single maximum order matrix, K2 is a second preset single maximum order matrix, K3 is a third preset single maximum order matrix, and Kn is an nth preset single maximum order matrix;

the management module limits the single maximum number of dispatchers according to the credits of the dispatchers in each distribution area:

in the A1 distribution area, the management module compares the scores of all distributors in the distribution area with the parameters in the J1 matrix respectively and determines the single maximum number of the distributors from the K1 matrix according to the comparison result;

in the A2 distribution area, the management module compares the scores of all distributors in the distribution area with the parameters in the J2 matrix respectively and determines the single maximum number of the distributors from the K2 matrix according to the comparison result;

in the A3 distribution area, the management module compares the scores of all distributors in the distribution area with the parameters in the J3 matrix respectively and determines the single maximum number of the distributors from the K3 matrix according to the comparison result;

in An distribution area, the management module compares the integral of each distributor in the distribution area with the parameters in the Jn matrix respectively and determines the single maximum number of the distributors from the Kn matrix according to the comparison result.

Further, for the ith preset integral standard matrix Ji, i =1, 2, 3, 4, Ji = (Ji 1, Ji2, Ji3, Ji 4), where Ji1 is the ith delivery area first preset integral standard, Ji2 is the ith delivery area second preset integral standard, Ji3 is the ith delivery area third preset integral standard, Ji4 is the ith delivery area fourth preset integral standard, the integral value of each preset integral standard gradually increases in order; for the ith preset single maximum order matrix Ki, Ki = (Ki 1, Ki2, Ki3 and Ki 4), wherein Ki1 is the first preset maximum order number of the ith distribution area, Ki2 is the second preset maximum order number of the ith distribution area, Ki3 is the third preset maximum order number of the ith distribution area, Ki4 is the fourth preset maximum order number of the ith distribution area, and the preset maximum order numbers are gradually increased in sequence;

when the management module determines the single maximum number of the dispatchers in the ith distribution area, the management module compares the integral of each dispatcher in the distribution area with each parameter in the Ji matrix in sequence:

when J is not more than Ji1, the management module sets the single maximum order receiving number of the distributor as Ki 1;

when the J is more than or equal to the J1 and less than or equal to the J2, the management module sets the single maximum order receiving number of the distributor to be Ki 2;

when the J is more than or equal to the J2 and less than or equal to the J3, the management module sets the single maximum order receiving number of the distributor to be Ki 3;

when Ji3 < J ≦ Ji4, the management module sets the maximum number of single pick-ups for the dispenser to Ki 4.

Compared with the prior art, the method has the advantages that the management module is provided with the plurality of preset matrixes, so that the management module can evaluate the single delivery of the distributors according to the user so as to adjust the integral value of the distributors in real time, the single maximum number of the distributors is sequentially adjusted according to different integral value standards in each area, and the management module can respectively detect the number of the distributors in each delivery area and the integral condition of each distributor in a specified period; the management module can also flexibly adjust the auditing standard of the applicant applying for the staffing distributor in each distribution area according to the number of different distributors in each distribution area, the single maximum number of the distributors is adjusted by using the integral as a judgment basis, and meanwhile, the management module can flexibly adjust the auditing standard of the applicant applying for the staffing distributor in each distribution area according to the number of different distributors in each distribution area, so that the average income of the distributors in each area is effectively ensured, the number of the distributors in each area can be balanced, and the distribution efficiency balance of the system is effectively improved.

Furthermore, the system is provided with the substitute service and the substitute purchase service, so that a user can select the corresponding service according to different requirements, and the application range of the system is widened;

furthermore, the management module is internally provided with a preset selling point quantity value, when the actual quantity value is larger than the preset quantity value, the management module judges that a purchase place is not required to be added, when the actual quantity value is smaller than or equal to the preset quantity value, the management module enables a user to input the purchase place of the purchased goods into the user terminal, the corresponding purchase place is selected through detecting the quantity of the purchase goods receiving points, the distribution route of a distributor can be flexibly adjusted, so that the distributor can deliver the goods to the appointed place in a shorter time, and the delivery efficiency of the system is improved.

Furthermore, the management module is provided with a preset grading grade matrix R0 and a point settlement matrix S0, when the distributor completes single distribution, the user can evaluate the distribution for the distributor through the user terminal, when the evaluation of the user for the distributor is R, the management module compares the parameters in the R and R0 matrixes and changes the point S of the distributor according to the comparison result, the distribution efficiency of each distributor can be embodied more intuitively by adjusting the point of the distributor in real time through the single distribution result, meanwhile, the point is used as a subsequent judgment standard, matched regulations can be formulated for each distributor, and the management efficiency of the system for the distributors is improved.

Furthermore, the management module is also provided with a preset route length matrix L0 and a preset charging matrix M0, after the distributor selects the route, the management module compares the total route L of the selected route with each numerical value in the L0 matrix and determines the cost for the distribution according to the comparison result, and the economic income of the distributor can be effectively ensured by collecting the corresponding cost according to the route length.

Furthermore, the management module is provided with a preset distribution area matrix A0, a preset distribution person number matrix group H0 and a preset auditing standard matrix group B0, when someone applies for the position of a distributor, the management module can audit the applicant according to the distribution area requested by the applicant to enter the position and the number of the current distributors in the distribution area, when the applicant applies for the ith distribution area distributor, the management module can detect the number H of the current distributors in the ith distribution area in real time, compare the H with each parameter in the Hi matrix, select the corresponding auditing standard according to the comparison result, select the corresponding auditing standard according to the number of persons and the corresponding number standard of the different areas, when the number of the distributors in the areas is too large, the position entering standard is increased, and when the number of the distributors in the areas is too low, the position entering standard is widened, so that the number of the distributors in the different areas can be effectively adjusted, thereby further improving the distribution efficiency balance of the system.

Furthermore, the management module is further provided with a preset integral standard matrix group J0 and a preset single maximum number of receiving matrix group K0, the management module can limit the single maximum number of receiving of each distributor according to the integral of each distributor in each distribution area, and meanwhile, the average income of the distributors at each integral level can be effectively ensured by selecting corresponding integral standards for different areas and determining the corresponding single maximum number of receiving according to different integral standards, so that the management of the system on the distributors is improved, and the distribution efficiency balance of the system is further improved.

Drawings

Fig. 1 is a block diagram of a cargo distribution management system according to the present invention.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention is further described below with reference to examples; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and do not limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Fig. 1 is a block diagram of a cargo distribution management system according to the present invention. The cargo distribution management system of the present invention includes:

When a user issues delivery and purchase orders through the system, a distributor/piggyback operator receives the orders:

when the order is a delivery order, the receiving side or the delivering side issues the delivery order, pays a delivery service fee, and sends the order to the task hall, then the receiving side or the delivering side takes the order in the task hall, takes the goods and delivers the goods according to the order requirement, the receiving side checks the goods after delivery, and the receiving side asks the verification code to check and complete delivery. The two parties evaluate each other, the delivery is completed, the goods carrier obtains the service charge of the delivery within a certain time, and meanwhile, the platform also obtains a certain platform service charge. Meanwhile, if the user cancels the order after paying the order, the user needs to deduct certain handling fee as default compensation to the goods piggy-back personnel.

When the order is a purchase order, the goods receiver issues the purchase order, pays the cost of the goods to be purchased plus the service fee, and carries out the order grabbing of the goods receiver in the task hall, then carries out the purchase, the goods taking and the goods delivery according to the order requirement, and the goods receiver checks the goods after the delivery, and carries out the verification code checking and the delivery to the goods receiver.

Specifically, when the commodity is bought by a designated shop or a merchant, the commodity carrying person goes to a designated place for purchase according to the requirement of a user order, and if the actual price of the commodity and the commodity order come in and go out in the period, the commodity carrying person needs to carry out corresponding setting in the system and is confirmed by the user, and finally the price difference problem of the commodity is completed (online more or less complement)

If the goods to be bought is not appointed to a shop or a merchant, the goods-taking person can select to buy the merchant by himself, during the period, if the actual price of the goods to be bought comes in and goes out with the order to be bought, the goods-taking person needs to carry out corresponding setting in the system and is confirmed by the user, and finally mutual evaluation of two parties of the price difference problem (online multi-return and multi-supply) of the goods to be bought is completed, the goods-taking person obtains the service fee of the goods to be bought within a certain time, and meanwhile, the platform also obtains a certain platform service fee.

Meanwhile, if the user cancels the order after paying the order, the user needs to deduct certain handling fee as default compensation to the goods piggy-back personnel. If the piggyback operator cancels the order after receiving the order, a certain default money is deducted (deducted from the deposit paid by the piggyback operator)

Specifically, when a piggyback operator performs parking, the method includes the following steps:

(1) a non-motor vehicle: non-motor vehicles such as bicycles, electric vehicles and the like can be applied for parking, but real-name authentication, face recognition and deposit (whether payment is needed or not is selected by a platform according to conditions) are needed, and the vehicle can be worn on a multi-angle picture to complete basic knowledge online learning and examination.

(2) A motor vehicle: 7 seats and following passenger cars can apply for parking but need real-name authentication, face recognition, deposit (whether the platform needs to pay according to the condition), driving license uploading and recognition, and the vehicles can wear on multi-angle pictures to complete basic knowledge online learning and examination.

If necessary, the safety inspection can be carried out on line on the goods carrying personnel by calling the public security internet data, so that the safety is ensured.

The piggybacked items are constrained in volume, weight, and range.

Specifically, when the user selects the substitute service, the delivery information entered by the user to the user terminal includes: the system comprises user information, a goods taking address, a goods taking person contact way, a goods receiving address and a goods receiving person contact way; when the user chooses to purchase the service, the delivery information input to the user terminal by the user comprises the following steps: a goods name, a goods price, a purchase-by address, a consignee address, and a consignee contact.

Specifically, a preset selling point quantity value is set in the management module, when a user selects a purchase-for-agent service and inputs a goods name to the information input module, the management module searches the actual quantity value of the selling point selling the goods in the distribution area where the user is located according to the goods name, when the actual quantity value is larger than the preset quantity value, the management module judges that the purchase-for-agent place does not need to be added, and when the actual quantity value is smaller than or equal to the preset quantity value, the management module enables the user to input the purchase-for-agent place of the purchase-for-agent goods to the user terminal.

Specifically, a preset grading level matrix R0 and a point settlement matrix S0 are arranged in the management module; for the preset scoring level matrix R0, R0= (R1, R2, R3, R4, R5), wherein R1 is the first scoring level of the S-level evaluation, R2 is the second scoring level of the a-level evaluation, R3 is the third scoring level of the B-level evaluation, R4 is the fourth scoring level of the C-level evaluation, and R5 is the fifth scoring level of the D-level evaluation; for the point settlement matrix S0, S0= (S1, S2, S3, S4, S5), where S1 is the first settlement point of point +2, S2 is the second settlement point of point +1, S3 is the third settlement point of point +0, S4 is the fourth settlement point of point-1, and S5 is the fifth settlement point of point-2;

Specifically, the management module is further provided with a preset path length matrix L0 and a preset charging matrix M0; for the preset path length matrix L0, L0= (L1, L2, L3, L4), where L1 is a first preset length, L2 is a second preset length, L3 is a third preset length, and L4 is a fourth preset length, and the preset lengths are gradually increased in sequence; for the preset charging matrix M0, M0= (M1, M2, M3, M4), where M1 is a first preset fee, M2 is a second preset fee, M3 is a third preset fee, and M4 is a fourth preset fee, and the preset fees gradually increase in sequence;

Specifically, a preset distribution area matrix A0, a preset distribution people number matrix H0 and a preset auditing standard matrix B0 are arranged in the management module; for the preset delivery area matrix a0, a0= (a 1, a2, A3,. An), where a1 is a first preset delivery area, a2 is a second preset delivery area, A3 is a third preset delivery area, and An is An nth preset delivery area; for the preset number of people for delivery matrix group H0, H0 includes matrices H1, H2, H3,. and Hn, where H1 is a first preset number of people for delivery, H2 is a second preset number of people for delivery, H3 is a third preset number of people for delivery, and Hn is an nth preset number of people for delivery; for the preset auditing standard matrix group B0, B0 includes matrices B1, B2, B3,. and Bn, where B1 is a first preset auditing standard matrix, B2 is a second preset auditing standard matrix, B3 is a third preset auditing standard matrix, and Bn is an nth preset auditing standard matrix;

Specifically, for the ith preset number of delivery persons matrix Hi, i =1, 2, 3, ·, n, Hi = (Hi 1, Hi2, Hi3, Hi 4), where Hi1 is the first preset number of delivery persons in the ith delivery area, Hi2 is the second preset number of delivery persons in the ith delivery area, Hi3 is the third preset number of delivery persons in the ith delivery area, and Hi4 is the fourth preset number of delivery persons in the ith delivery area, the number of preset numbers of delivery persons increases gradually in order;

Specifically, the management module is also provided with a preset integral standard matrix group J0 and a preset single maximum number matrix group K0; for the set of preset integration standard matrices J0, J0 includes matrices J1, J2, J3,.., Jn, where J1 is a first preset integration standard matrix, J2 is a second preset integration standard matrix, J3 is a third preset integration standard matrix, and Jn is an nth preset integration standard matrix; for the preset single maximum order matrix group K0, the K0 includes matrices K1, K2, K3,. and Kn, where K1 is a first preset single maximum order matrix, K2 is a second preset single maximum order matrix, K3 is a third preset single maximum order matrix, and Kn is an nth preset single maximum order matrix;

Specifically, for the i-th preset integration criterion matrix Ji, i =1, 2, 3, 4, Ji = (Ji 1, Ji2, Ji3, Ji 4), where Ji1 is the i-th distribution area first preset integration criterion, Ji2 is the i-th distribution area second preset integration criterion, Ji3 is the i-th distribution area third preset integration criterion, Ji4 is the i-th distribution area fourth preset integration criterion, and the integral values of the preset integration criteria gradually increase in order; for the ith preset single maximum order matrix Ki, Ki = (Ki 1, Ki2, Ki3 and Ki 4), wherein Ki1 is the first preset maximum order number of the ith distribution area, Ki2 is the second preset maximum order number of the ith distribution area, Ki3 is the third preset maximum order number of the ith distribution area, Ki4 is the fourth preset maximum order number of the ith distribution area, and the preset maximum order numbers are gradually increased in sequence;

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention; various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A cargo distribution management system, comprising:

the management module is used for respectively managing the distribution information, the distributor points and the number of the distributors in each distribution area; a preset scoring grade matrix, an integral settlement matrix, a preset path length matrix, a preset charging matrix, a preset distribution area matrix, a preset distribution number matrix group, a preset auditing standard matrix group, a preset integral standard matrix group and a preset single maximum receiving number matrix group are arranged in the management module; the management module can evaluate the single delivery of the deliverers according to the user so as to adjust the integral value of the deliverers in real time, sequentially adjust the single maximum number of deliverers according to different integral value standards in each area, and respectively detect the number of the deliverers in each delivery area and the integral condition of each deliverer in a specified period; the management module can also flexibly adjust the auditing standard of the applicant applying for the employee distributor in each distribution area according to the number of different distributors in each distribution area;

the management module is provided with a preset distribution area matrix A0, a preset distribution person number matrix group H0 and a preset auditing standard matrix group B0; for the preset delivery area matrix a0, a0= (a 1, a2, A3,. An), where a1 is a first preset delivery area, a2 is a second preset delivery area, A3 is a third preset delivery area, and An is An nth preset delivery area; for the preset number of people for delivery matrix group H0, H0 includes matrices H1, H2, H3,. and Hn, where H1 is a first preset number of people for delivery, H2 is a second preset number of people for delivery, H3 is a third preset number of people for delivery, and Hn is an nth preset number of people for delivery; for the preset auditing standard matrix group B0, B0 includes matrices B1, B2, B3,. and Bn, where B1 is a first preset auditing standard matrix, B2 is a second preset auditing standard matrix, B3 is a third preset auditing standard matrix, and Bn is an nth preset auditing standard matrix;

when the delivery area requested by the applicant to enter is An, the management module detects the number H of the existing deliverers in the An delivery area in real time, compares the number H with each parameter in the Hn matrix, and selects a corresponding auditing standard from the Bn matrix according to the comparison result to audit the applicant;

for the ith preset distribution people number matrix Hi, i =1, 2, 3,., n, Hi = (Hi 1, Hi2, Hi3, Hi 4), wherein Hi1 is the first preset distribution people number in the ith distribution area, Hi2 is the second preset distribution people number in the ith distribution area, Hi3 is the third preset distribution people number in the ith distribution area, and Hi4 is the fourth preset distribution people number in the ith distribution area, and the number of the preset distribution people numbers is gradually increased in sequence;

2. The cargo distribution management system according to claim 1, wherein when the user selects the substitute service, the distribution information entered by the user to the user terminal includes: the system comprises user information, a goods taking address, a goods taking person contact way, a goods receiving address and a goods receiving person contact way; when the user chooses to purchase the service, the delivery information input to the user terminal by the user comprises the following steps: a goods name, a goods price, a purchase-by address, a consignee address, and a consignee contact.

3. The cargo delivery management system according to claim 2, wherein a predetermined number of selling points is provided in the management module, when the user selects a purchase-by-generation service and inputs the name of the cargo to the information entry module, the management module retrieves an actual number of selling points at which the user sells the cargo in the delivery area according to the name of the cargo, when the actual number is greater than the predetermined number, the management module determines that the purchase-by-generation point is not required to be added, and when the actual number is less than or equal to the predetermined number, the management module causes the user to enter the purchase-by-generation point of the purchase-by-generation cargo into the user terminal.

4. The cargo distribution management system according to claim 1, wherein a preset rating matrix R0 and a point settlement matrix S0 are provided in the management module; for the preset scoring level matrix R0, R0= (R1, R2, R3, R4, R5), wherein R1 is the first scoring level of the S-level evaluation, R2 is the second scoring level of the a-level evaluation, R3 is the third scoring level of the B-level evaluation, R4 is the fourth scoring level of the C-level evaluation, and R5 is the fifth scoring level of the D-level evaluation; for the point settlement matrix S0, S0= (S1, S2, S3, S4, S5), where S1 is the first settlement point of point +2, S2 is the second settlement point of point +1, S3 is the third settlement point of point +0, S4 is the fourth settlement point of point-1, and S5 is the fifth settlement point of point-2;

5. The cargo distribution management system according to claim 2, wherein the management module further comprises a preset path length matrix L0 and a preset charging matrix M0; for the preset path length matrix L0, L0= (L1, L2, L3, L4), where L1 is a first preset length, L2 is a second preset length, L3 is a third preset length, and L4 is a fourth preset length, and the preset lengths are gradually increased in sequence; for the preset charging matrix M0, M0= (M1, M2, M3, M4), where M1 is a first preset fee, M2 is a second preset fee, M3 is a third preset fee, and M4 is a fourth preset fee, and the preset fees gradually increase in sequence;

6. The cargo distribution management system according to claim 4, wherein the management module is further provided with a preset integral standard matrix group J0 and a preset single maximum number matrix group K0; for the set of preset integration standard matrices J0, J0 includes matrices J1, J2, J3,.., Jn, where J1 is a first preset integration standard matrix, J2 is a second preset integration standard matrix, J3 is a third preset integration standard matrix, and Jn is an nth preset integration standard matrix; for the preset single maximum order matrix group K0, the K0 includes matrices K1, K2, K3,. and Kn, where K1 is a first preset single maximum order matrix, K2 is a second preset single maximum order matrix, K3 is a third preset single maximum order matrix, and Kn is an nth preset single maximum order matrix;

7. The cargo distribution management system according to claim 6, wherein for an i-th preset integral criteria matrix Ji, i =1, 2, 3, 4, Ji = (Ji 1, Ji2, Ji3, Ji 4), wherein Ji1 is an i-th distribution area first preset integral criteria, Ji2 is an i-th distribution area second preset integral criteria, Ji3 is an i-th distribution area third preset integral criteria, Ji4 is an i-th distribution area fourth preset integral criteria, and the integral values of the preset integral criteria are gradually increased in this order; for the ith preset single maximum order matrix Ki, Ki = (Ki 1, Ki2, Ki3 and Ki 4), wherein Ki1 is the first preset maximum order number of the ith distribution area, Ki2 is the second preset maximum order number of the ith distribution area, Ki3 is the third preset maximum order number of the ith distribution area, Ki4 is the fourth preset maximum order number of the ith distribution area, and the preset maximum order numbers are gradually increased in sequence;