NL2036265A - Point-type waste recycling system based on internet and using electronic fence technology - Google Patents

Abstract

Disclosed is a point-type waste recycling system based on Internet and using an electronic fence technology. The point-type waste recycling system includes a 5 purchasing station subsystem, a user ordering subsystem and an order dispatching subsystem. The order dispatching subsystem includes a region division module and an order delivery module. Firstly, a user uses a user account to place a waste recycling order through the user order subsystem to obtain a recycling order; secondly, the region division module uses the electronic fence technology to diVide regions based on the 10 recycling order to obtain a target region; then, the order delivery module sends the recycling order to a designated recycling station corresponding to the target region, and finally, a purchasing station uses the designated recycling station through the purchasing station subsystem to obtain and process the recycling order, and after a transaction, a point system generates points.

Description

POINT-TYPE WASTE RECYCLING SYSTEM BASED ON INTERNET AND

USING ELECTRONIC FENCE TECHNOLOGY

TECHNICAL FIELD

[OI] The present invention relates to the technical field of data processing systems, in particular to a point-type waste recycling system based on Internet and using an electronic fence technology.

BACKGROUND ART

[02] With the accelerated development of urbanization in China, waste disposal has become a difficult problem for city government managers at all levels. In the past, the traditional landfill method was widely used in China, which occupied a large area, and as a result, landfills in some cities were facing the crisis of filling up and sealing up, and cannot bear the growing amount of waste.

SUMMARY

[03] An objective of the present invention is to provide a point-type waste recycling system based on Internet and using an electronic fence technology, aiming at solving the problem that an existing waste landfill method occupies a large area.

[04] In order to solve the above problem, the point-type waste recycling system based on Internet and using an electronic fence technology is provided by the present invention and includes a purchasing station subsystem, a user ordering subsystem and an order dispatching subsystem, the purchasing station subsystem and the user ordering subsystem are sequentially connected to the order dispatching system separately, the order dispatching subsystem includes a region division module and an order delivery module, and the region division module is connected to the order delivery module;

[05] the user ordering subsystem is configured to allow a user to place a waste recycling order with a user account to generate a recycling order;

[06] the region division module uses the electronic fence technology to divide regions based on the recycling order to obtain a target region;

[07] the order delivery module is configured to deliver the recycling order to a designated recycling station corresponding to the target region and corresponding 5-10 recyclers; and

[08] the purchasing station subsystem is configured to allow a purchasing station to use the designated recycling station to acquire and process the recycling order.

[09] The purchasing station subsystem includes a first account generation module, an order reception module and a waste recycling truck, and the first account generation module, the order reception module and the waste recycling truck are sequentially connected;

[10] the first account generation module generates the designated recycling station based on information of the purchasing station;

[11] the order reception module is configured to receive the recycling order sent by the region division module and store the recycling order in the designated recycling station and the corresponding 5-10 recycling recyclers; and

[12] the waste recycling truck recycles waste recycled by the designated recycling station.

[13] The waste recycling truck includes a compression module and a transferring module, and the compression module is connected to the transferring module;

[14] the compression module compresses the waste recycled by the designated recycling station to obtain compressed materials; and

[15] the transferring module is configured to transfer the compress materials to a fixed warehouse storing site.

[16] The waste recycling truck further includes an execution statistics module and a point giving module, and the execution statistics module is connected to the point giving module;

[17] the execution statistics module is configured to count work execution situations of the compression module and the transferring module to obtain statistical data, and

[18] the point giving module gives points to the corresponding user account based on the statistical data.

[19] The region division module includes a region setting submodule, a position acquisition submodule and a division submodule, and the region setting submodule and the position acquisition submodule are sequentially connected to the division submodule;

[20] the region setting submodule generates a waste recycling map based on the information of the purchasing station and a current map; [BIJ] the position acquisition submodule acquires a user position based on the recycling order; and

[22] the division submodule delimits a target region from a waste recycling area by using the electronic fence technology based on the user position.

[23] The user ordering subsystem includes a second account generation module and a user ordering module, and the second account generation module is connected to the user ordering module;

[24] the second account generation module generates the user account based on user information; and

[25] the user ordering module is configured to allow the user to place the waste recycling order with the user account to generate the recycling order.

[26] The purchasing station subsystem further includes a settling module, a point recording module and a point deduction module, and the point recording module, the point deduction module and the settling module are sequentially connected;

[27] the settling module is configured to allow the cooperative stores to be settled;

[28] the point recording module is configured to store the given points and obtain total points; and

[29] the point deduction module is configured to allow the user account to use the total points to purchase offline goods of the cooperative stores by consumption patterns of cash and points. |30] According to the point-type waste recycling system based on Internet and using an electronic fence technology of the present invention, firstly, the user uses the user account to place the waste recycling order through the user ordering subsystem to generate the recycling order; secondly, the region division module uses the electronic fence technology to divide the regions based on the recycling order to obtain the target region; then, the order delivery module sends the recycling order to the designated recycling station corresponding to the target region; and finally, the purchasing station uses the designated recycling station through the purchasing station subsystem to obtain and process the recycling order, after a transaction, a point system generates points, the points are given to an ordering person, then the points are divided by the system to various cooperative physical stores on the platform for offline consumption, and the points are deducted by the way of points and cash. Recycling of the waste is realized, landfill work of recyclable waste is reduced, and then occupation of land areas is reduced, which solves the problem that the existing waste landfill method occupies a large area.

BRIEF DESCRIPTION OF THE DRAWINGS

[31] In order to describe the examples of the present disclosure or the technical solutions in the prior art clearer, and the accompanying drawings required by the examples or description of the prior art are briefly described below. Obviously, the accompanying drawings in the following description show merely some examples of the present disclosure, and a person of ordinary skill in the art would also be able to derive other accompanying drawings from these accompanying drawings without creative efforts.

[32] FIG. 1 is a schematic structural diagram of a point-type waste recycling system based on Internet and using an electronic fence technology provided by the present invention.

[33] FIG. 2 1s a schematic structural diagram of a waste recycling truck.

[34] FIG. 3 is a schematic structural diagram of a region division module.

[35] 1. purchasing station subsystem, 2. user ordering subsystem, 3. order dispatching subsystem, 4. region division module, 5. order delivery module, 6. first account generation module, 7. order reception module, 8. waste recycling truck, 9. compression module, 10. transferring module, 11. execution statistics module, 12. point giving module, 13. region setting submodule, 14. position acquisition submodule, 15. division submodule, 16. second account generation module, 17. user ordering module, 18. point recording module, 19. point deduction module, 20. settling module.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[36] Examples of the present invention are described in detail below, examples of the examples are illustrated in the accompanying drawings, and the same or similar reference numerals denote the same or similar elements or elements having the same or similar function throughout. The examples described below by referring to the accompanying drawings are exemplary and are intended to explain the present invention, but cannot be understood as limitations on the present invention.

[37] With reference to FIG. 1 to FIG. 3, a point-type waste recycling system 5 based on Internet and using an electronic fence technology is provided by the present invention and includes a purchasing station subsystem 1, a user ordering subsystem 2 and an order dispatching subsystem 3, the purchasing station subsystem 1 and the user ordering subsystem 2 are sequentially connected to the order dispatching system 3 separately, the order dispatching subsystem 3 includes a region division module 4 and an order delivery module 5, and the region division module 4 is connected to the order delivery module 5;

[38] the user ordering subsystem 2 is configured to allow a user to place a waste recycling order with a user account to generate a recycling order;

[39] the region division module 4 uses the electronic fence technology to divide regions based on the recycling order to obtain a target region;

[40] the order delivery module 5 is configured to deliver the recycling order to a designated recycling station corresponding to the target region and corresponding 5-10 recyclers; and

[41] the purchasing station subsystem 1 is configured to allow a purchasing station to use the designated recycling station to acquire and process the recycling order.

[42] Specifically, firstly, the user uses the user account to place the waste recycling order through the user ordering subsystem 2 to generate the recycling order; secondly, the region division module 4 uses the electronic fence technology to divide the regions based on the recycling order to obtain the target region; then, the order delivery module 5 sends the recycling order to the designated recycling station corresponding to the target region and the recyclers; and finally, the purchasing station uses the designated recycling station through the purchasing station subsystem 1 to obtain and process the recycling order, after a transaction, a point system generates points, the points are given to an ordering person, then the points are divided by the system to various cooperative physical stores on the platform for offline consumption, the points are deducted by the way of points and cash, recycling of waste is realized, and landfill work of recyclable waste is reduced, which reduces occupation of land areas, thus solving the problem of a large occupied area of an existing waste landfill method. Further, the designated purchasing station is selected to recycle the waste by regional division, and the nearest purchasing station is allocated to the user, such that the purchasing station necessarily arrives at the site to receive the waste in 30 minutes after receiving the recycling order, and recycling efficiency is improved. The waste includes foam, cardboard boxes, plastic, stainless steel, copper, aluminum and other reusable products.

[43] Further, the purchasing station subsystem 1 includes a first account generation module 6, an order reception module 7 and a waste recycling truck 8, and the first account generation module 6, the order reception module 7 and the waste recycling truck 8 are sequentially connected;

[44] the first account generation module 6 generates the designated recycling station based on information of the purchasing station;

[45] the order reception module 7 is configured to receive the recycling order sent by the region division module 4 and store the recycling order in the designated recycling station and the corresponding 5-10 recycling recyclers; and

[46] the waste recycling truck 8 recycles the waste recycled by the designated recycling station.

[47] The waste recycling truck 8 includes a compression module 9 and a transferring module 10, and the compression module 9 is connected to the transferring module 10;

[48] the compression module 9 compresses the waste recycled by the designated recycling station to obtain compressed materials; and

[49] the transferring module 10 is configured to transfer the compress materials to a fixed warehouse storing site.

[50] The waste recycling truck 8 further includes an execution statistics module 11 and a point giving module 12, and the execution statistics module 11 is connected to the point giving module 12;

[51] the execution statistics module 11 1s configured to count work execution situations of the compression module 9 and the transferring module 10 to obtain statistical data; and

[52] the point giving module 12 gives points to the corresponding user account based on the statistical data.

[53] Specifically, the first account generation module 6 generates the designated recycling station based on the information of the purchasing station, the order reception module 7 receives the recycling order sent by the region division module 4 and stores the recycling order in the designated recycling station; the compression module 9 compresses the waste recycled by the designated recycling station to obtain the compressed materials, the transferring module 10 transfers the compress materials to the fixed warehouse storing site; the execution statistics module 11 counts the work execution situations of the compression module 9 and the transferring module 10 to obtain the statistical data; and the point giving module 12 gives the points to the corresponding user account based on the statistical data, the points may be used as cash in cooperative stores or may be donated, and the points and cash may buy any products and services of the cooperative stores.

[54] Further, the region division module 4 includes a region setting submodule 13, a position acquisition submodule 14 and a division submodule 15, and the region setting submodule 13 and the position acquisition submodule 14 are sequentially connected to the division submodule 15;

[55] the region setting submodule 13 generates a waste recycling map based on the information of the purchasing station and a current map;

[56] the position acquisition submodule 14 acquires a user position based on the recycling order; and

[57] the division submodule 15 delimits a target region from a waste recycling area by using the electronic fence technology based on the user position.

[58] Specifically, the region setting submodule 13 generates the waste recycling map based on the information of the purchasing station and the current map, the position acquisition submodule 14 acquires the user position based on the recycling order; and the division submodule 15 delimits the target region from the waste recycling area by using the electronic fence technology based on the user position, and the target region includes the purchasing station closest to the user. A distance between the designated recycling stations is divided at a center point to obtain a geometric graph, orders placed by users in the geometric graph may only be received by the designated recycling stations in the geometric graph, however, if the orders are not received by the designated recycling stations within 10-30 minutes (the time may be set freely), other recyclers in the geometric graph take the orders.

[59] Further, the user ordering subsystem 2 includes a second account generation module 16 and a user ordering module 17, and the second account generation module 16 is connected to the user ordering module 17;

[60] the second account generation module 16 generates the user account based on user information; and

[61] the user ordering module 17 is configured to allow the user to place the waste recycling order with the user account to generate the recycling order.

[62] Specifically, the second account generation module 16 generates the user account based on the user information; and the user uses the user account to place the recycling order through the user ordering module 17 to generate the recycling order, which improves convenience of the user to place the order.

[63] Further, the purchasing station subsystem 1 further includes a settling module 20, a point recording module 18 and a point deduction module 19, and the point recording module 18, the point deduction module 19 and the settling module 20 are sequentially connected;

[64] the settling module 20 is configured to allow the cooperative stores to be settled;

[65] the point recording module 18 is configured to store the given points and obtain total points; and

[66] the point deduction module 19 is configured to allow the user account to use the total points to purchase offline goods of the cooperative stores by consumption patterns of cash and points.

[67] Specifically, the settling module 20 is configured to screen the plurality of stores to obtain the cooperative stores to be settled in, and the point recording module 18 stores the given points to obtain the total points; the user account uses the total points to purchase the offline goods of the cooperative stores by the consumption patterns of cash and points through the point deduction module 19, the number of points to be deducted is calculated by the total consumption, and the points may deduct corresponding cash, for example, if the offline goods need 30 yuan, the points may be deducted by 6 points, and 1 point 1s equal to 1 yuan, then the points of 20 may be used to deduct 6 yuan, the offline goods of the cooperative stores may be purchased only by paying 24 yuan, and traffic referral of the cooperative stores is realized.

[68] What has been disclosed above is only a preferred example of the point-type waste recycling system based on Internet and using an electronic fence technology of the present invention, of course, the preferred example cannot be used to limit the scope of claims of the present invention.

Those skilled in the art can understand all or part of the processes for realizing the above example, and equivalent changes made according to the claims of the present invention still fall within the scope of the present invention.

Claims (7)

Conclusions l. Point-type waste recycling system based on the Internet and using an electronic fencing technology, which includes: a purchasing station subsystem, a user ordering subsystem and an order dispatch subsystem, wherein the purchasing station subsystem and the user ordering subsystem are separately sequentially connected to the order dispatch system, wherein the order dispatch subsystem is an area distribution module and comprises an order fulfillment module, and the area division module is connected to the order fulfillment module; the user ordering subsystem is configured to allow a user to place a waste recycling order using a user account to generate a recycling order; the area division module uses the electronic fencing technology to divide areas based on the recycling order to obtain a target area; the order delivery module is configured to deliver the recycling order to a designated recycling station corresponding to the target area and corresponding 5-10 recyclers; and the purchasing station subsystem is configured to allow a purchasing station to use the designated recycling station to acquire and process the recycling order. 2. The Internet-based point-type waste recycling system using an electronic fencing technology according to claim 1, wherein the purchasing station subsystem includes a first account generation module, an order receiving module and a waste recycling cart, and the first account generation module, the order receiving module and the waste recycling cart are sequentially connected to each other are; the first account generation module generates the designated recycling station based on information from the purchasing station; the order receiving module is configured to receive the recycling order sent by the area distribution module and store the recycling order in the designated recycling station and the corresponding 5-10 recycling recyclers; and the waste recycling truck recycles the waste recycled by the designated recycling station. The point-type waste recycling system based on the Internet and using an electronic fencing technology according to claim 2, wherein the waste recycling cart includes a compression module and a transfer module, and the compression module is connected to the transfer module; the compression module compresses the waste recycled 1s by the designated recycling station to obtain compressed materials; and the transfer module is configured to transfer the compression materials to a fixed storage location. A point-type waste recycling system based on the Internet and using an electronic fencing technology according to claim 3, wherein the waste recycling cart further comprises an execution statistics module and a scoring module, and the execution statistics module is connected to the scoring module; the execution statistics module is configured to count work output situations of the compression module and the transferring module to obtain statistical data; and the scoring module awards points to the corresponding user account based on the statistical data. The point-type waste recycling system based on the Internet and using an electronic fencing technology according to claim 4, wherein the area distribution module includes an area setting sub-module, a position acquisition sub-module and a distribution sub-module, and the area setting sub-module and the position acquisition sub-module are consecutively connected to the distribution sub-module; the area setting sub-module generates a waste recycling map based on the purchasing station information and a current map; the position acquisition sub-module acquires a user position based on the recycling order; and the distribution sub-module defines a target area of a waste recycling area using the electronic fencing technology based on the user position. The point-type waste recycling system based on the Internet and using an electronic fencing technology according to claim 5, wherein the user ordering subsystem includes a second account generation module and a user ordering module, and the second account generation module is connected to the user ordering module; the second account generation module generates the user account based on user information; and the user orchestration module is configured to allow the user to place the waste recycling order against the user account to obtain the recycling order. 7. The point-type waste recycling system based on the Internet and using an electronic fencing technology according to claim 6, wherein the purchasing station subsystem further includes a settlement module, a point recording module and a point deduction module, and the point recording module, the point deduction module and the settlement module are successively connected to each other ; the settlement module is configured to settle the cooperative storage units; the point recording module is configured to store the given points and obtain total points; and the point deduction module is configured to convert the user's total consumption in the cooperative storage units on the platform into corresponding deductible points, and to purchase offline goods and services from the cooperative storage units through cash and points consumption patterns.