CN111507795A - Lunch box recycling and recovery processing method, system, device and storage medium - Google Patents

Abstract

The application discloses lunch box recycling and recovery processing method, system, device and storage medium, wherein the lunch box recycling and processing method comprises the following steps: obtaining catering detail information containing a catering order based on the catering order; checking whether the lunch boxes matched with the catering orders meet the recycling standard or not according to the catering detail information; when the lunch box meets the recycling standard, displaying recyclable information related to the lunch box in a display interface of the ordering system for a user to select recyclable service of the lunch box; the food order is submitted through a food ordering system, and the food ordering system is operated by an application program loaded on a user client. This application has practiced thrift recovery cost greatly and has reduced the safety risk that people contacted cutlery box and exist to for the user provides the function that the cutlery box was retrieved, be favorable to the simplification of cutlery box recovery flow and realize the handle accuse of the cutlery box recovery in-process flow.

Description

Lunch box recycling and recovery processing method, system, device and storage medium

Technical Field

The application relates to the field of computer data processing, in particular to a method, a system, a device and a storage medium for recycling and processing a lunch box.

Background

With the acceleration of life rhythm of people and the development of an O2O platform, take-away ordering provides convenient catering experience for people and develops into a life style of people. However, the convenient dining experience brings huge consumer groups, and the use amount of the disposable meal boxes is increased suddenly, and the popularization of the takeaway dining is shown by data, so that at least 4 hundred million takeaway products at least 4 hundred million disposable packing boxes, 4 hundred million plastic bags and 4 hundred million disposable tableware are discarded every week, thereby causing great waste of resources and serious environmental pollution.

On the other hand, the takeaway lunch box is almost made of plastic or paper materials, so that the use cost is low, but the recovery cost is high, and the types of ordering and the users of ordering are various, so that the sanitary condition and the pollution degree of the taken-away lunch box after being used are uncontrollable. Therefore, the recycling of the takeaway box is a great challenge and challenge.

In view of this, creating environment-friendly takeaway is an urgent problem to be solved.

Disclosure of Invention

In view of the above-mentioned drawbacks of the related art, the present application provides a method, a system, a device, and a storage medium for recycling and processing lunch boxes, so as to overcome the above-mentioned technical problem of difficult recycling of lunch boxes in the related art.

To achieve the above and other related objects, a first aspect of the disclosure provides a recycling method for lunch boxes, comprising the following steps: obtaining catering detail information containing a catering order based on the catering order; checking whether the lunch boxes matched with the catering orders meet the recycling standard or not according to the catering detail information; when the lunch box meets the recycling standard, displaying recyclable information related to the lunch box in a display interface of the ordering system for a user to select recyclable services of the lunch box; the food order is submitted through a food ordering system, and the food ordering system is operated by an application program loaded on a user client.

A second aspect of the disclosure provides a lunch box recycling system, which includes an obtaining module, a checking module, and a display module, wherein the obtaining module is configured to obtain catering detail information including a catering order based on the catering order; the checking module is used for checking whether the lunch boxes matched with the catering orders meet the recycling standard or not according to the catering detail information; the display module is used for displaying the recyclable information related to the lunch boxes in a display interface of the ordering system for the user to select the recyclable lunch box service when the lunch boxes meet the recycling standard; the food order is submitted through a food ordering system, and the food ordering system is operated by an application program loaded on a user client.

A third aspect of the present disclosure provides a cloud server system, including at least one storage device and at least one processing device, where the at least one storage device is used to store at least one program; the at least one processing device is connected with the storage device, and is used for executing and implementing any lunch box recycling processing method provided by the first aspect of the disclosure when the at least one program is run.

A fourth aspect of the present disclosure provides a lunch box recycling method, including the steps of: submitting a meal order in an order detail interface; and loading a recovered lunch box reminding item when the lunch box allocated by the received catering order meets the recovery standard so that the user can select recyclable service of the lunch box.

A fifth aspect of the disclosure provides a meal ordering system, including a detection module, a submission module, and a loading module, wherein the detection module is configured to detect a trigger operation in a current display interface, the submission module is configured to submit a meal order in an order detail interface, and the loading module is configured to receive that a meal box allocated to the meal order meets a recovery standard and load a recovery meal box reminder item for a user to select a service that the meal box can be recovered.

A sixth aspect of the present disclosure provides an electronic apparatus, comprising: a display, at least one memory, and at least one processor, wherein the at least one memory is to store at least one program; the at least one processor is connected with the at least one memory and is configured to execute the at least one program when executing the at least one program to perform and implement the fourth aspect of the disclosure of the present application to provide a method for retrieving a meal box.

A seventh aspect of the present disclosure provides a computer-readable storage medium storing at least one program, which when executed by a processor, implements any of the lunch box recycling processing methods provided by the first aspect of the present disclosure, or any of the lunch box recycling methods provided by the fourth aspect of the present disclosure.

In summary, according to the meal box recycling and recycling processing method, system, device and storage medium disclosed by the application, whether the meal box matched with the catering order submitted by the user client meets the recycling standard is checked through the service end, so that when the meal box matched with the catering order meets the recycling standard, the reminding item of the recycled meal box is displayed in the display interface of the user client, the checking process of the meal box is realized at the service end in a digital manner, the recycling cost is greatly saved, the safety risk of people contacting the meal box is reduced, a meal box recycling function is provided for the user at the user client, and the simplification of the meal box recycling process and the control of the process in the meal box recycling process are facilitated.

Other aspects and advantages of the present application will be readily apparent to those skilled in the art from the following detailed description. Only exemplary embodiments of the present application have been shown and described in the following detailed description. As those skilled in the art will recognize, the disclosure of the present application enables those skilled in the art to make changes to the specific embodiments disclosed without departing from the spirit and scope of the invention as it is claimed. Accordingly, the descriptions in the drawings and the specification of the present application are illustrative only and not limiting.

Drawings

The specific features of the invention to which this application relates are set forth in the appended claims. The features and advantages of the invention to which this application relates will be better understood by reference to the exemplary embodiments described in detail below and the accompanying drawings. The brief description of the drawings is as follows:

fig. 1 is a flow chart of an embodiment of the lunch box recycling method of the present application.

Fig. 2 is a flow chart of the lunch box recycling method according to an embodiment of the present application.

Fig. 3 is a schematic diagram of an order detail interface according to an embodiment of the present application.

Fig. 4 is a schematic diagram of an order detail interface in a further embodiment of the present application.

Fig. 5 is a schematic view of a display interface including a reminder for a recycled meal box according to an embodiment of the present application.

Fig. 6 is a flow chart showing a recycling method of lunch box according to another embodiment of the present application.

FIG. 7 is a diagram of a recycle detail page in one embodiment of the present application.

Fig. 8 is a block diagram of the lunch box recycling system according to an embodiment of the present invention.

FIG. 9 is a block diagram of the ordering system of the present application in one embodiment.

Fig. 10 is a block diagram of a cloud server system according to an embodiment of the present invention.

FIG. 11 is a block diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present application is provided for illustrative purposes, and other advantages and capabilities of the present application will become apparent to those skilled in the art from the present disclosure.

In the following description, reference is made to the accompanying drawings that describe several embodiments of the application. It is to be understood that other embodiments may be utilized and that changes in the module or unit composition, electrical, and operation may be made without departing from the spirit and scope of the present disclosure. The following detailed description is not to be taken in a limiting sense, and the scope of embodiments of the present application is defined only by the claims of the issued patent. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

Also, as used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context indicates otherwise. It will be further understood that the terms "comprises," "comprising," "includes" and/or "including," when used in this specification, specify the presence of stated features, steps, operations, elements, components, items, species, and/or groups, but do not preclude the presence, or addition of one or more other features, steps, operations, elements, components, species, and/or groups thereof. The terms "or" and/or "as used herein are to be construed as inclusive or meaning any one or any combination. Thus, "A, B or C" or "A, B and/or C" means "any of the following: a; b; c; a and B; a and C; b and C; A. b and C ". An exception to this definition will occur only when a combination of elements, functions, steps or operations are inherently mutually exclusive in some way.

As described in the background art, the popularization of take-away ordering causes great waste of resources and serious environmental pollution, and meanwhile, take-away lunch boxes are difficult to recycle, and the sanitary conditions and pollution degree of the lunch boxes are not controllable.

In view of this, the present application provides a meal box recycling method for use in a network system including a service end and at least one user client, such as AN online meal ordering system or platform of a business entity, the network may be the internet, one or more intranets, a local area network (L AN), a wide area network (W L AN), a Storage Area Network (SAN), or the like, or a suitable combination thereof, and the embodiments of the present application are not limited to the types of various clients including the user client, the service end, or the type or protocol of a communication network between a publisher terminal and a server, between a responder terminal and a server, or the like.

In some embodiments of the present application, the user client is, for example, an electronic device loaded with an APP application or having web/website access capabilities, the electronic device including components such as memory, a memory controller, one or more processing units (CPUs), peripheral interfaces, RF circuitry, audio circuitry, speakers, microphones, input/output (I/O) subsystems, display screens, other output or control devices, and external ports, which communicate via one or more communication buses or signal lines. The electronic device includes, but is not limited to, personal computers such as desktop computers, notebook computers, tablet computers, smart phones, smart televisions, and the like. The electronic device can also be an electronic device consisting of a host with a plurality of virtual machines and a human-computer interaction device (such as a touch display screen, a keyboard and a mouse) corresponding to each virtual machine.

In some embodiments of the present application, the server may be disposed on one or more entity servers according to various factors such as function, load, and the like. When distributed in a plurality of entity servers, the server side can be composed of servers based on a cloud architecture. For example, a Cloud-based server includes a Public Cloud (Public Cloud) server and a Private Cloud (Private Cloud) server, wherein the Public or Private Cloud server includes Software-as-a-Service (SaaS), Platform-as-a-Service (PaaS), Infrastructure as a Service (IaaS), and Infrastructure as a Service (IaaS). The private cloud service end is used for example for a Mei Tuo cloud computing service platform, an Array cloud computing service platform, an Amazon cloud computing service platform, a Baidu cloud computing platform, a Tencent cloud computing platform and the like. The server may also be formed by a distributed or centralized cluster of servers. For example, the server cluster is composed of at least one entity server. Each entity server is provided with a plurality of virtual servers, each virtual server runs at least one functional module in the server, and the virtual servers are communicated with each other through a network.

In some embodiments of the application, the server side adopts the lunch box recycling processing method provided by the application to check and manage the recycling condition of the lunch boxes allocated to the catering orders. For example, the service end audits the recycling condition of the lunch box for the catering order submitted by the user in the ordering system, provides a lunch box recycling function for the user in the ordering system according to the auditing result, and can provide a door-to-door lunch box taking service for the user based on the lunch box recycling function triggered by the user, so that the recycling of the lunch box is completed. In an embodiment, the meal ordering system is, for example, a system including an O2O client, such as the O2O client is, for example, a mezzo APP, a mezzo takeaway APP, or a popular comment APP, or an O2O client that is hungry to how APP, or hundredth to take away.

Please refer to fig. 1, which is a flowchart illustrating an embodiment of a lunch box recycling method according to the present application, wherein the lunch box recycling method includes steps S10, S11, and S12, and the lunch box recycling method according to the present application will be described in detail with reference to fig. 1.

In step S10, the server obtains the food detail information containing a food order based on the food order.

The food order is submitted through a food ordering system, the food ordering system is operated by an application program loaded in a user client, and the specific structure and the description of fig. 9 are referred to in the following, which are not repeated herein. In an example, the food order is a food order submitted by triggering an operation of a food order submitting request item in the food ordering system, for example, an order detail interface is loaded in the food ordering system, the food order submitting request item is shown in the order detail interface, and a user submits the food order by triggering the food order submitting request item, and the specific process is described with reference to the following description with reference to fig. 3. Therefore, the server side needs to process and verify all the catering orders submitted by the ordering system. In another example, the catering order is a catering order submitted by triggering a submitted ordering request item in an ordering system, and the submitted catering order includes a meal box check request submitted by a user, for example, an order detail interface is loaded in the ordering system, the order detail interface shows a meal box check request item in addition to the submitted ordering request item in an example, the user can selectively trigger the submitted ordering request item according to the user's intention, and on this basis, the submitted ordering request item is triggered to submit the catering order, and the specific process is described with reference to the description of fig. 4. Therefore, the server only needs to perform information processing and verification on the catering orders which are submitted by the ordering system and contain the meal box verification requests, so that under the condition that the user does not have the intention of meal box recovery, the information processing and verification on the catering orders are omitted, the computing resources are saved, and the process is simplified. It should be noted that the aforementioned and later mentioned trigger or trigger operations include, but are not limited to, clicking (for example, clicking with an input device such as a mouse, or touching with a finger, etc.), long pressing, or repeatedly touching, etc., and it should be understood that the user performing the trigger operation on an object may be referred to as the user triggering the object, for example, the user performing the trigger operation on a reservation interface, which may also be referred to as the user triggering the reservation interface. For another example, a user triggering a hot key region indicates that the user performed a triggering operation on the hot key region, and so on. Similar situations will not be described in detail below.

It should be understood that the request item refers to a component that can perform instruction or information input through operations such as triggering or clicking, for example, "submit an order" as shown in fig. 3, or "for saving resources and protecting environment, i agree to request recycling of a lunch box" as shown in fig. 4, or "confirm" as shown in fig. 7.

In an embodiment, the restaurant detail information includes the restaurant order, and the restaurant order includes merchant account information, meal information, and user account information. The restaurant order information comprises a restaurant name, a geographic position and the like corresponding to the restaurant order. The food information comprises food corresponding to the food order and additional content, the food can be any one or more of foods such as spicy soup, dry pot, rice and soup, which are added into the food order by a user based on the food provided by a merchant, and the additional content can be remarked information such as spicy taste, tableware provision and the like, which is added into the food order based on the user's self-selection or filling. The user account information comprises a user contact information, a geographical position and the like corresponding to the catering order. It should be noted that the specific contents of the information included in the food order are only examples, and in practical applications, those skilled in the art can selectively increase or decrease the contents according to the information that can be actually provided in the food order.

In another embodiment, the restaurant detail information further includes information obtained by the server from a server database based on the above information in the restaurant order. The database of the server comprises merchant and user data which are pre-filled in a network system platform comprising the server and are acquired from a third-party service provider through authorization of the merchant and the user, two-dimensional code data used for representing the security state of the merchant is generated according to the merchant data, and the two-dimensional code data used for representing the health state of the user is generated according to the user data. The two-dimensional code data is a code matrix formed by 0 and 1 and obtained by encoding at least merchant data or user data by 0 and 1. The encoding mode of the two-dimensional code data is exemplified by but not limited to: one-dimensional encoding processing is performed on each data in the merchant data or the user data, and the data subjected to the one-dimensional encoding processing is stacked into two-dimensional Code data, for example, the two-dimensional Code data is generated by using Code 16K, Code 49 or PDF417 and the like; alternatively, the two-dimensional Code Data is obtained by performing an interleaving encoding process on each of the merchant Data and the user Data, and the two-dimensional Code Data is generated by using, for example, Code One, Maxi Code, QR Code, or Data Matrix.

In an example, the information obtained by the server from the server database based on the above information in the meal order is merchant data obtained from the database based on merchant account information in the meal order, for example, the merchant data is one or more of the material of a meal box, the source of the meal box, and the health condition of meal preparation staff for the meal provided by the merchant.

In another example, the information obtained by the server from the server database based on the above information in the meal order includes, in addition to the merchant data in one example, user data obtained from the database based on user account information in the meal order, and the user data includes user attribute information, such as personal basic information of the user's name, age, location, and the like. But not limited to, the restaurant detail information may further include user safety information, and the user safety information is two-dimensional code data used for representing the health state of the user and acquired from a database by a server based on user account information.

The database further includes a dispatcher who resides in a network system platform including the server and fills in the database in advance, acquires dispatcher data from a third-party service provider through authorization of the dispatcher, and generates two-dimensional code data for representing the health status of the dispatcher according to the dispatcher data. In view of this, in other examples, the server obtains that the catering order is accepted by a dispatcher, and the catering detail information obtained by the server further includes dispatcher safety information for dispatching the catering order, where the dispatcher safety information is two-dimensional code data for representing health status of the dispatcher, obtained by the server from a database.

In step S11, the server checks whether the lunch box used in the meal order meets the recycling standard according to the meal detail information.

The recycling standard may be, for example, a condition that is established according to the attribute of the lunch box and used for determining whether the attribute information of the lunch box used by the catering order meets the attribute condition of the recycled lunch box, and the recycling standard may also be, for example, a condition that is established according to the safety information of the lunch box and used for determining whether the safety information of the lunch box used by the catering order meets the safety condition of the recycled lunch box. However, the recycling standard can also include attribute conditions of the lunch box and safety conditions of the lunch box in other examples, and those skilled in the art can modify the recycling standard according to the factors that must be considered in practical application.

In an embodiment, the recycling criteria includes attribute conditions of lunch boxes, and step S11 further includes: and determining attribute information of the lunch boxes matched with the catering orders according to the catering detail information. Therefore, in the step S11, the server checks whether the lunch box used by the meal order meets the recycling standard according to the meal detail information, and can be implemented by checking the attribute information of the used lunch box.

In an example, the attribute condition of the meal box is that the meal box material is a predetermined material, and the attribute information of the used meal box to be determined is the meal box material, as described above, the catering detail information includes merchant data, and the merchant data may be, for example, one or more of the meal box material, the meal box source, and the health condition of the meal preparation staff used for the meal provided by the merchant. Therefore, the server can directly obtain the material of the meal box matched with the meal order from the merchant data, compare the obtained material of the meal box matched with the meal order with the preset material, and if the obtained material of the meal box matched with the meal order is the same as the preset material, the meal box matched with the meal order is considered to meet the recycling standard, and if the obtained material of the meal box matched with the meal order is different from the preset material, the meal box matched with the meal order is considered to not meet the recycling standard. For example, the recycling standard is that the lunch box is made of plastic, and if the service end knows from the merchant data that the lunch box used for the meal of the meal order is also made of plastic, the meal box used for the meal order is considered to meet the recycling standard. It should be noted that, the predetermined lunch box material is a plastic material only for illustration, in practice, the lunch box material can be set to any one or more of plastic material and paper material according to practical recoverable conditions, and when the predetermined lunch box material is various, the used lunch box material only needs to satisfy one of the various materials.

In another example, the attribute condition of the meal box is that the degree of soiling of the meal box is lower than a preset degree, and the attribute information of the adapted meal box to be determined is the degree of soiling. Specifically, the server can determine the stain degree of a lunch box matched with the catering order according to the meal information in the catering detail information, and judge whether the determined stain degree of the lunch box is lower than a preset degree, if so, the lunch box matched with the catering order is considered to meet the recovery standard, and if not, the lunch box matched with the catering order is considered not to meet the recovery standard. For example, the server can classify the stain degree of the lunch box into no greasy, light greasy and heavy greasy according to the category of the meal in the meal information and by combining the additional content in the meal information. For example, if the stain level of lunch boxes in the recycling standard is preset to be heavy greasy, the meal information of a meal order is: if the food is spicy and hot, and the additional content is heavy spicy and heavy hot, determining that the degree of the stain is heavy greasy, and further determining that the food order does not meet the recovery standard; if the food information of another food order is: if the food is spicy and hot and the additional content is slightly spicy, determining that the degree of the stain is slightly greasy, and further determining that the catering order meets the recovery standard; if the food information of another food order is as follows: the food is spicy hot, the additional content is heavy spicy and hot, and the disposable protective layer is used, so that the stain degree is determined to be not greasy, and the catering order is further determined to meet the recovery standard. The disposable protective layer is a protective layer arranged inside the lunch box by a merchant according to the selection of a user in a meal ordering system, such as tin foil, plastic film and the like.

It should be noted that the determination of the attribute condition of the lunch box is not limited to this, in other embodiments, the attribute condition of the lunch box includes the material of the lunch box and the stain degree of the lunch box at the same time, the specific determination process of the attribute condition of the lunch box is performed according to the processes described in the foregoing one example and another example, and the determination sequence of the material of the lunch box and the stain degree of the lunch box can be set according to the priority level. For example, if the material of the lunch box is considered to be the most important recycling standard, the material of the lunch box is preferentially judged, the degree of soiling of the lunch box is judged only when the material of the lunch box is a preset material, and if the material of the lunch box is not the preset material, the degree of soiling of the lunch box is not necessarily judged any more, and the lunch box is directly considered to not meet the recycling standard. The above description is only an example, the material of the lunch box and the priority level of the dirty degree of the lunch box can be changed according to the actual needs, and the skilled person can also increase or decrease the contents of the attribute conditions of the lunch box according to the actual needs.

In another embodiment, if the recycling criteria includes meal box safety conditions, step S11 includes: and the server checks whether the matched lunch box meets the safety condition of the lunch box according to the catering detail information.

In an example, the restaurant detail information includes user attribute information, and the server may determine whether a lunch box allocated for a current restaurant order meets a safety condition of the lunch box according to the user attribute information. For example, the server may determine whether the lunch box meets the safety condition of the lunch box according to the age information of the user, and if the age of the user in the user attribute information exceeds forty years old, the lunch box is considered not to meet the recycling standard of the safety condition of the lunch box; for another example, the server determines whether the lunch box meets the safety condition of the lunch box according to the position information of the user, and if the position of the user in the user attribute information is a hospital, for example, the user considers that there is a possibility of carrying viruses or germs on the lunch box, and considers that the lunch box does not meet the recovery standard of the safety condition of the lunch box.

In another example, the restaurant detail information further includes user safety information, and the server determines whether a lunch box used by the current restaurant order meets a lunch box safety condition through the user safety information. As described above, the user safety information is two-dimensional code data representing a health state of the user, if the server determines that the user does not have a health risk (for example, the user is healthy and does not contact a patient with an infectious disease or does not enter a too high risk place) according to the two-dimensional code data, it is determined that the lunch box used by the current dining order meets the recycling standard of the safety condition of the lunch box, and if the server determines that the user has a health risk (for example, the user is in a sick stage or contacts a patient with an infectious disease or does not enter a too high risk place) according to the two-dimensional code data, it is determined that the lunch box used by the current dining order does not meet.

In other examples, the catering detail information further includes dispenser safety information, and the server side further determines whether the lunch box matched with the current catering order meets the safety condition of the lunch box according to the dispenser safety information. As described above, the safety information of the deliverer is two-dimensional code data representing the health state of the deliverer, if the server determines that the deliverer does not have health risks (for example, the server is healthy and does not contact infectious disease patients or the historical delivery track does not relate to a high-risk place) according to the two-dimensional code data, the server determines that the lunch box allocated to the current catering order meets the recycling standard of the safety condition of the lunch box, and if the server determines that the deliverer has health risks (for example, the body is in the illness period or contacts infectious disease patients or the historical delivery track relates to a high-risk place) according to the two-dimensional code data, the server determines that the lunch box allocated to the current catering order.

For example, the server may further determine whether the safety condition of the meal box meets the recycling criterion according to the meal box source and the health condition of the meal preparation staff in the merchant data in the meal detail information. It should be noted that, the above-mentioned judgment of the safety conditions of the meal boxes can exist simultaneously according to the actual requirements and can set the judgment sequence according to the priority, or can select any one or more of them to judge according to the requirements, whichever way, as long as one of them judges that the safety conditions of the meal boxes do not meet the recovery standard, the meal boxes allocated to the meal order are considered not to meet the recovery standard.

In practical applications, the conditions set by the recycling criteria are not limited to the above, in other embodiments, the recycling criteria includes attribute conditions of the lunch box and safety conditions of the lunch box, the specific determination process of step S11 is performed according to the processes described in the foregoing one embodiment and another embodiment, and the determination sequence of the attribute conditions of the lunch box and the safety conditions of the lunch box can be set according to the priority. For example, if the attribute condition of the lunch box is considered to be the most important recycling criterion, the judgment of the attribute condition of the lunch box is preferentially performed, the judgment of the safety condition of the lunch box is performed only when the attribute condition of the lunch box is judged to pass, and if the attribute condition of the lunch box is judged to fail, the judgment of the safety condition of the lunch box is not necessary to be performed any more, and the lunch box is directly considered to be not meeting the recycling criterion. The above description is only for example, and the priority of the attribute condition and the safety condition of the meal box can be changed according to actual needs.

In step S12, when the server determines that the lunch box meets the recycling standard, the recyclable information about the lunch box is displayed in the display interface of the ordering system for the user to select the recyclable service of the lunch box.

According to the step S11, when the service end verifies that the recycling standard is met, the service end feeds back the recyclable information related to the lunch box to the meal ordering system for executing the meal box recycling method, so that the meal ordering system displays the information in the display interface thereof, and the user can click to select the recyclable service of the lunch box. Please refer to fig. 5 and the description thereof for how the recyclable information related to the lunch box is displayed in the display interface of the meal ordering system, which is not described herein again.

As shown in fig. 5, after the information related to the recyclable lunch box can be displayed in the display interface of the ordering system in the manner of the recyclable lunch box reminder, the user can submit a recyclable lunch box request by triggering the recyclable lunch box reminder, the recyclable lunch box request includes recyclable configuration information, and the recyclable configuration information includes a plurality of information in the pickup time, the pickup location, and the user contact manner. For details of the configuration manner of the recycling configuration information and how to submit the request for recycling the lunch box, please refer to fig. 7 and the description thereof, which are not described herein again.

In view of this, the lunch box recycling processing method further includes step S13 (not shown), in step S13, the server generates a lunch box recycling order based on the received recycled lunch box request, and displays the meal box recycling order in a display interface of the distribution system for the distributor to receive the lunch box recycling order. Wherein the request for recycling the lunch box is submitted through the ordering system based on the recycling configuration information.

In an embodiment, after receiving the lunch box recycling request, the server generates a lunch box recycling order based on the lunch box recycling request, where the lunch box recycling order includes recycling configuration information, that is, the lunch box recycling order includes at least two information of pickup time, pickup location, and user contact information. The service end further sends the lunch box recovery order to the distribution system, and the distribution system displays the lunch box recovery order in a display interface of the system after receiving the lunch box recovery order, so that a distributor can autonomously select a receiving order of the lunch box recovery order according to the recovery configuration information in the lunch box recovery order in combination with the distribution route and the working time of the distributor, and can generate a receiving response to send to the service end after the distributor submits the lunch box recovery order. Wherein the delivery system is run by an application loaded in a dispatcher client.

In view of this, the lunch box recycling processing method further includes step S14 (not shown), in step S14, the server generates lunch box recycling feedback information to be displayed in the display interface of the meal ordering system based on the received receiving response corresponding to the lunch box recycling order.

In an embodiment, after receiving the receiving response of the distribution system to the lunch box recovery order, the server obtains the distributor data corresponding to the lunch box recovery order from the database, and generates the lunch box recovery feedback information according to the distributor data. In one example, the lunch box recycling feedback information includes the contact information of the distributor and the pick-up code allocated for the lunch box recycling order. In another example, the lunch box recycling feedback information may further include names of the distributors and other distributor data related to the lunch box recycling order, which are not listed here.

In another embodiment, the server side obtains corresponding distributor data from a database, and also obtains two-dimensional code data used for representing the health state of the distributors according to the distributor data, and the server side generates lunch box recycling feedback information according to the distributor data and the two-dimensional code data. In an example, the lunch box recycling feedback information comprises a contact way of a distributor, safety information and a pick-up code distributed for a recycling order of the lunch box, wherein the safety information comprises any one or two of two-dimensional code data representing the health state of the distributor and a two-dimensional code generated according to the two-dimensional code data. In another example, the lunch box recycling feedback information may further include names of the distributors and other distributor data related to the lunch box recycling order, which is not listed here.

The server generates the lunch box recycling feedback information and sends the lunch box recycling feedback information to the ordering system, and the ordering system displays the lunch box recycling feedback information in a display interface of the ordering system, and a specific display mode of the ordering system refers to the description of the lunch box recycling method in the following description, which is not described herein again.

In practical application, a dispenser arrives at a pickup location according to information in a lunch box order to recycle the lunch box, a user and lunch box recycling feedback information deliver the lunch box to the dispenser at the pickup location and provide a pickup code for the dispenser to be used as verification so as to avoid abnormal conditions such as mistaken pickup or wrong order pickup, the dispenser sends the lunch box back to a recycling point after taking the lunch box, and the recycling point performs unified treatment on the lunch box.

In order to implement a lunch box recycling mechanism and encourage users to recycle lunch boxes, the lunch box recycling processing method further includes step S15 (not shown), in step S15, the server allocates virtual resources to the ordering system based on the received completion response corresponding to the lunch box recycling order, and the virtual resources are visually displayed in a display interface of the ordering system for users to obtain and use.

And the dispenser sends the lunch boxes obtained from the user to the recycling point, and the recycling order is considered to be finished. In one example, the meal box recovery order completion response is a completion response generated when the distribution system detects that the distributor triggers the operation order completion item. But not limited thereto, in another example, the completion response of the lunch box recovery order is a completion response generated when the recovery system detects that the trigger operation order completion item is detected. Wherein the recycle system is run by an application loaded in a recycle point client.

Further, the virtual resource allocated by the service end to the ordering system in step S15 may be, for example, a preset fixed amount, or a random amount within a preset fixed range. The virtual resource comprises any one of a red packet, a coupon, a voucher, a score or a user grade, the virtual resource allocated by the server to the ordering system can be any one of a fixed number of the red packet, the coupon, the voucher, the score or the user grade, or the virtual resource allocated by the server to the ordering system can be any one of a random number of the red packet, the voucher, the score or the user grade within a preset fixed range. When the ordering system receives the virtual resource, the virtual resource is displayed in a display interface of the ordering system in a visual mode of any one of a red packet, a coupon, a voucher, a point or a user grade, so that the virtual resource can be used by a user.

It should be noted that, since the recycling order request in the steps S13 to S15 is selectively triggered according to the user' S intention of recycling the lunch box, the steps S13 to S15 may or may not be triggered to be executed.

As described in the above steps S10 to S15, the meal ordering system completes meal box management and recycling by the interaction between the user client and the server, and how the user client performs meal box recycling is described below with reference to fig. 2 to 7. Please refer to fig. 2, which is a flowchart illustrating an embodiment of a lunch box recycling method according to the present application, wherein the lunch box recycling method includes steps S20 and S21.

In step S20, the user client submits a meal order in the order details interface.

In one embodiment, when an application program of an ordering system is opened, the user client may add a food item selected by a user based on a user triggering operation in a presentation interface of each merchant in the ordering system, and load an order detail interface when detecting that the user triggers an operation of a settlement item.

In an example, a restaurant order is displayed in the order detail interface, and the restaurant order includes merchant account information, meal information, and user account information. The merchant account information comprises information such as merchant names or geographic positions of merchants selected by a user in a triggering operation in the ordering system. The meal information includes the meal selected by the user in the selected merchant and additional content items that the user can trigger to add additional content to the meal order, such as meal taste, whether disposable tableware is needed, etc. The user account information comprises a user contact mode, a geographical position and the like corresponding to the catering order, and the user can modify the user account information through triggering operation. It should be noted that the specific contents of each piece of information included in the meal order are only examples, and in practical applications, those skilled in the art can selectively increase or decrease the information according to the information that can be actually provided in the meal order.

In another example, the order detail interface also shows a food order submitting request item, and the food order submitting request item can be triggered by a user to submit a food order. Please refer to fig. 3, which is a schematic diagram of an order detail interface in an embodiment of the present application, as shown in the drawing, a region a in the drawing is used for displaying a food order, where "submit the food order" in the drawing is used as a virtual key for submitting a food order request item, when the virtual key is triggered, the user client submits the food order to the server, and the server performs the steps S10 to S12 according to the food order.

In another example, a meal box check request item is also displayed in the order detail interface, the meal order is a meal order submitted by triggering the submitted order request item, and the submitted meal order includes a meal box check request submitted by triggering the meal box check request item by a user. Referring to fig. 4, a schematic diagram of an order detail interface in yet another embodiment of the present application is shown, as shown, the area A is used for displaying catering orders, the area A agrees to apply for meal box recycling as a virtual key of a meal box auditing request item for saving resources and protecting the environment, when the virtual key is triggered, the interface displays that the user agrees to apply for recycling the lunch box as the environment is saved (for example, the user can be selected by changing the color from gray to other colors, displaying a check at the corresponding position of the check request item of the lunch box, and the like), on the basis, the user triggers and operates the virtual key to submit the food order, so that the food order submitted to the server includes a food box audit request submitted by the user, and the server executes the steps S10 to S12 according to the food order.

In step S21, the user client receives that the lunch box allocated by the meal order satisfies the recycling standard and loads a recycling lunch box reminder for the user to select the recyclable lunch box service.

When the server executes the aforementioned steps S10 to S12 to check that the lunch box allocated by the restaurant order submitted in step S20 meets the recycling standard, the recyclable information about the lunch box is sent to the user client, and the user client loads the reminder for the recycled lunch box according to the recyclable information about the lunch box. For example, as shown in fig. 5, the display interface is shown as a schematic diagram of the display interface including the recovered meal box reminder in an embodiment of the present application, and as shown in the figure, the recovered meal box reminder is displayed above the display interface of the meal ordering system in text as "the meal box in the meal order can be recovered, please click to recover" to remind the user, but not limited thereto, and may also be selectively loaded in the display interfaces such as the order detail interface or the meal order completion interface in a mode of combining images, texts, or texts with images according to settings.

In practical applications, the user can select the recyclable service of the lunch box by triggering the reminding item of the recyclable lunch box. In view of this, please refer to fig. 6, which is a flowchart illustrating a lunch box recycling method according to another embodiment of the present application, wherein the lunch box recycling method further includes step S22, in which the user client submits a lunch box recycling request when detecting that the reminder for recycling lunch boxes is triggered in step S22. The retrieved meal box request is used for generating a meal box retrieved order to be displayed in a distribution system, and the distribution system is operated by an application program loaded in a distributor client.

In an embodiment, the user client loads a recycle detail page when detecting that the recycle lunch box reminder is triggered. In some examples, a recovery configuration column is displayed in the recovery detail page, so that a user configures recovery configuration information under the corresponding column through a trigger operation, where the recovery configuration information includes at least two information of pickup time, pickup location, and user contact information. Furthermore, a submitted and recycled lunch box request item is also displayed in the recycled detail page, and after the configuration of the recycled configuration information is completed, a user submits a recycled lunch box request item by triggering the submitted and recycled lunch box request item, wherein the recycled lunch box request comprises the recycled configuration information.

Referring to fig. 7, a schematic diagram of a recycling detail page in an embodiment of the present application is shown, in which a recycling configuration list is shown, and the recycling configuration list includes pickup time, pickup location, and contact information. The pickup time can be selected by the triggering operation of the pull-down key of the pickup time by the user. The pickup location can be acquired through the triggering operation of the user on the pickup location, for example, a pre-stored address is acquired as the pickup location, or a new address is added as the pickup location through manual input, or positioning information is acquired as the pickup location. The configuration of the contact way can be realized through the triggering operation of the user on the contact way, for example, the pre-stored number is selected to be used as the contact way, or a new number is added to be used as the contact way through manual input, or the number in the address list is obtained to be used as the contact way. After the configuration of the recycling configuration information is completed under the recycling configuration column, a user submits a recycling lunch box request to the server by triggering operation as a virtual key 'confirmation' for submitting the recycling lunch box request item.

In view of the above, the lunch box recycling method further includes step S23 (not shown), in step S23, the user client receives the lunch box recycling feedback information and displays the lunch box recycling feedback information in the display interface.

As mentioned above, the lunch box recycling feedback information includes a plurality of information in the contact information, the safety information and the pick-up code of the dispenser, and the safety information includes the two-dimensional code data or the two-dimensional code representing the health status of the dispenser. Therefore, the user client can selectively display part or all of various information in the lunch box recycling feedback information in the display interface based on the received lunch box recycling feedback information. For example, the user client loads a feedback information display interface after the user submits the triggering operation of the lunch box recycling request, and displays the lunch box recycling feedback information in the feedback information display interface, in an example, only the contact way and the pick-up code of the distributor are displayed in the feedback information display interface. In another example, the feedback information display interface displays a contact way of a dispenser, a pickup code and a two-dimensional code representing the health state of the dispenser, for example, when the health state of the dispenser is represented as healthy, the two-dimensional code is displayed as a green reassurance icon, when the health state of the dispenser is represented as general, the two-dimensional code is displayed as a yellow reminding icon, and when the health state of the dispenser is represented as unhealthy, the two-dimensional code is displayed as a red warning icon. It should be noted that, in some other examples, the feedback information display interface may further display an item for rejecting the recycled meal box request or an item for replacing the dispenser request, so as to provide a path for providing other solutions to the user in time to avoid the risk when the user determines that the recycled meal box is at risk according to the safety information.

In practical application, a dispenser arrives at a pickup location according to information in a lunch box order to recycle the lunch box, a user and lunch box recycling feedback information deliver the lunch box to the dispenser at the pickup location and provide a pickup code for the dispenser to be used as verification so as to avoid abnormal conditions such as mistaken pickup or wrong order pickup, the dispenser sends the lunch box back to a recycling point after taking the lunch box, and the recycling point performs unified treatment on the lunch box.

As mentioned above, in order to implement the lunch box recycling mechanism and encourage the user to recycle the lunch boxes, the lunch box recycling processing system executes step S15 by the loaded server to allocate virtual resources to the ordering system based on the completion response of the lunch box recycling order, and the ordering system is run by the application program loaded on the user client. In view of this, the lunch box recycling method further includes step S24 (not shown), in step S24, the user client receives the virtual resource and displays the virtual resource in a display interface.

As indicated above, the virtual resource allocated by the server to the ordering system loaded on the user client may be, for example, a preset fixed amount or a random amount within a preset fixed range. The virtual resources distributed by the server to the user client can be any one of a fixed number of red packets, coupons, vouchers, points or user grades, or the virtual resources distributed by the server to the user client can be any one of a random number of red packets, coupons, vouchers, points or user grades in a preset fixed range. Therefore, when the user client receives the virtual resource, the virtual resource is loaded into any one of a red packet, a coupon, a voucher, a score and a user grade according to the type of the received virtual resource and is displayed in a display interface of the ordering system, for example, a user can make the virtual resource displayed in the display interface disappear from a current interface by triggering operation, or the virtual resource disappears from the current interface by displaying preset time (for example, 3s) in the display interface, and the user can check the obtained virtual resource by triggering operation of a red packet coupon item in a user account detail page of the ordering system.

It should be noted that the steps S22 to S24 are selectively triggered according to the intention of the user whether to recover the lunch box, so the steps S22 to S24 may or may not be triggered to be executed.

In summary, according to the meal box recycling method and the meal box recycling method disclosed by the application, whether the meal box matched with the catering order submitted by the user client meets the recycling standard is checked through the server, so that when the meal box matched with the catering order meets the recycling standard, a reminding item of the recycled meal box is displayed in the display interface of the user client, the checking process of the meal box is realized at the server in a digital manner, the recycling cost is greatly saved, the safety risk of people contacting the meal box is greatly reduced, in addition, the meal box recycling function is provided for the user client, and the simplification of the meal box recycling process and the control of the process in the meal box recycling process are facilitated.

In an embodiment, the lunch box recycling system is, for example, a service end, and the service end can be arranged on one or more physical servers according to various factors such as functions, loads, and the like. When distributed in a plurality of entity servers, the server may be composed of servers based on a cloud architecture. For example, the server based on the cloud architecture includes a public cloud service end and a private cloud service end, where the public or private cloud service end includes SaaS, PaaS, IaaS, and the like. The private cloud service end comprises a Mei Tuo cloud computing service platform, an Ali cloud computing service platform, an Amazon cloud computing service platform, a Baidu cloud computing platform, a Tencent cloud computing platform and the like. The server may also be formed by a distributed or centralized cluster of servers. For example, the server cluster is composed of at least one physical server. Each entity server is provided with a plurality of virtual servers, each virtual server runs at least one functional module in the merchant information management service terminal, and the virtual servers are communicated with each other through a network.

Referring to fig. 8, which is a block diagram of a lunch box recycling system according to an embodiment of the present invention, as shown in the figure, the lunch box recycling system 10 includes an obtaining module 11, an auditing module 12, and a display module 13.

The obtaining module 11 is configured to obtain the restaurant detail information including the restaurant order based on a restaurant order.

The food order is submitted through a food ordering system, the food ordering system is operated by an application program loaded in a user client, and the specific structure and the description thereof with reference to fig. 9 and the description thereof are described later, and are not repeated herein. In an example, the food order is a food order submitted by triggering an operation of a submitting food request item in the food ordering system, for example, an order detail interface is loaded in the food ordering system, the order detail interface shows the submitting food request item, and the user submits the food order by triggering the submitting food request item, and the specific process is described with reference to fig. 3. Thus, the lunch box recycling system 10 needs to process and check all the food orders submitted by the food ordering system. In another example, the catering order is a catering order submitted by triggering an operation of a submitted ordering request item in the ordering system, and the submitted catering order includes a meal box check request submitted by the user, for example, an order detail interface is loaded in the ordering system, the order detail interface shows a meal box check request item in addition to the submitted ordering request item in the example, the user can selectively trigger the operation of the meal box check request item according to the intention of the user, and on this basis, the submitted ordering request item is triggered to submit the catering order, and the specific process please refer to the description of fig. 4. Therefore, the meal box recycling system 10 only needs to perform information processing and audit on the meal orders containing the meal box audit requests submitted by the meal ordering system, so that under the condition that the user does not have the intention of meal box recycling, the information processing and audit on the meal orders are omitted, calculation resources are saved, and the process is simplified. It should be noted that the aforementioned and later mentioned trigger or trigger operations include, but are not limited to, clicking (e.g., clicking with an input device such as a mouse, or touching with a finger, etc.), long pressing, or repeated touching, etc., and it should be understood that the user performing the trigger operation on an object may be referred to as the user triggering the object, for example, the user performing the trigger operation on a reservation interface, which may also be referred to as the user triggering the reservation interface. For another example, a user triggering a hot key region indicates that the user performed a triggering operation on the hot key region, and so on. Similar situations will not be described in detail below.

It should be understood that the request item refers to a component that can perform instruction or information input through operations such as triggering or clicking, for example, "submit an order" as shown in fig. 3, or "for saving resources and protecting environment, i agree to request recycling of a lunch box" as shown in fig. 4, or "confirm" as shown in fig. 7.

In an embodiment, the restaurant detail information includes the restaurant order, and the restaurant order includes merchant account information, meal information, and user account information. The restaurant order information comprises a restaurant name, a geographic position and the like corresponding to the restaurant order. The food information comprises food corresponding to the food order and additional content, the food can be any one or more of foods such as spicy soup, dry pot, rice and soup, which are added into the food order by a user based on the food provided by a merchant, and the additional content can be remarked information such as spicy taste, tableware provision and the like, which is added into the food order based on the user's self-selection or filling. The user account information comprises a user contact information, a geographical position and the like corresponding to the catering order. It should be noted that the specific contents of the information included in the food order are only examples, and in practical applications, those skilled in the art can selectively increase or decrease the contents according to the information that can be actually provided in the food order.

In another embodiment, the restaurant detail information further includes information obtained by the obtaining module 11 from the server database based on the above information in the restaurant order. The server database comprises merchant and user pre-filled in a network system platform comprising the server, merchant data and user data acquired from a third-party server through authorization of the merchant and the user, two-dimensional code data used for representing the security state of the merchant according to the merchant data, and two-dimensional code data used for representing the health state of the user according to the user data. The two-dimensional code data is a code matrix formed by 0 and 1 and obtained by encoding at least merchant data or user data by using 0 and 1. The encoding mode of the two-dimensional code data is exemplified by but not limited to: performing one-dimensional encoding processing on each data in the merchant data or the user data and stacking the data subjected to the one-dimensional encoding processing into two-dimensional Code data, for example, generating the two-dimensional Code data by adopting a Code 16K, Code 49 or PDF417 and other modes; alternatively, the two-dimensional Code Data is obtained by performing an interleaving encoding process on each of the merchant Data and the user Data, and the two-dimensional Code Data is generated by using, for example, Code One, Maxi Code, QR Code, or Data Matrix.

In an example, the obtaining module 11 obtains, from the server database, merchant data based on the information in the restaurant order, where the merchant data is obtained from the database based on merchant account information in the restaurant order, for example, the merchant data is one or more of a material of a lunch box, a source of the lunch box, and a health condition of a meal preparation staff for a meal provided by a merchant.

In another example, the obtaining module 11 obtains the information from the server database based on the above information in the restaurant order, and in addition to the merchant data in one example, obtains the user data from the database based on the user account information in the restaurant order, where the user data includes user attribute information, such as personal basic information of the name, age, location, and the like of the user. But not limited to, the restaurant detail information may further include user safety information, and the user safety information is two-dimensional code data used for representing the health state of the user and acquired from a database by a server based on user account information.

The database further includes a dispatcher who resides in a network system platform including the server and fills in the database in advance, acquires dispatcher data from a third-party service provider through authorization of the dispatcher, and generates two-dimensional code data for representing the health status of the dispatcher according to the dispatcher data. In view of this, in other examples, the obtaining module 11 obtains that the catering order is accepted by a distributor, and the catering detail information obtained by the obtaining module 11 further includes safety information of the distributor who distributes the catering order, where the safety information of the distributor is two-dimensional code data used for representing the health status of the distributor and obtained by the obtaining module 11 from a database.

The auditing module 12 is used for auditing whether the lunch boxes matched with the catering orders meet the recycling standard according to the catering detail information.

The recycling standard is a condition preset in the lunch box recycling system 10 for determining whether the lunch box can be recycled, the recycling standard can be, for example, established according to the attribute of the lunch box and used for determining whether the attribute information of the lunch box used by the meal order meets the attribute condition of the recycled lunch box, and the recycling standard can be, for example, established according to the safety information of the lunch box and used for determining whether the safety information of the lunch box used by the meal order meets the safety condition of the recycled meal box. But not limited thereto, in other examples, the recycling standard may also include attribute conditions of the meal box and safety conditions of the meal box, and in addition, the recycling standard can be modified by those skilled in the art according to the factors that must be considered in practical application.

In an embodiment, the recycling criteria includes attribute conditions of meal boxes, and the auditing module 12 is further configured to determine attribute information of meal boxes used by the meal orders according to the meal detail information. Therefore, the auditing module 12 can audit whether the lunch box matched with the catering order meets the recycling standard according to the catering detail information, and can realize the purpose by auditing the attribute information of the matched lunch box.

In an example, the attribute condition of the meal box is that the meal box material is a predetermined material, and the attribute information of the used meal box to be determined is the meal box material, as described above, the catering detail information includes merchant data, and the merchant data may be, for example, one or more of the meal box material, the meal box source, and the health condition of the meal preparation staff used for the meal provided by the merchant. In view of this, the auditing module 12 can directly obtain the material of the meal box used by the meal order from the merchant data, and compare the obtained material of the meal box used by the meal order with the preset material, if the obtained material of the meal box used by the meal order is the same as the preset material, the meal box used by the meal order is considered to meet the recycling standard, and if the obtained material of the meal box used by the meal order is different from the preset material, the meal box used by the meal order is considered to. For example, if the recycling standard is that the meal box is made of plastic, and the audit module 12 knows from the merchant data that the meal box for the meal of the meal order is also made of plastic, the meal box for the meal order is considered to meet the recycling standard. It should be noted that, the predetermined lunch box material is a plastic material for illustration only, and in practice, the lunch box material can be set to any one or more of plastic material and paper material according to practical recoverable conditions, and when the predetermined lunch box material is various, the used lunch box material only needs to satisfy one of a plurality of materials.

In another example, the attribute condition of the meal box is that the degree of soiling of the meal box is lower than a preset degree, and the attribute information of the adapted meal box to be determined is the degree of soiling. Specifically, the auditing module 12 may determine the stain degree of the lunch box allocated to the meal order according to the meal information in the meal detail information, and determine whether the determined stain degree of the lunch box is lower than a preset degree, if so, the lunch box allocated to the meal order is considered to meet the recovery standard, and if so, the lunch box allocated to the meal order is considered not to meet the recovery standard. For example, the auditing module 12 may classify the stain degree of the meal box into no greasy, light greasy and heavy greasy according to the category of the meal in the meal information and by combining the additional content in the meal information. For example, if the stain level of the lunch box in the recycling standard is preset to be heavy greasy, the meal information of a meal order is: if the food is spicy and hot, and the additional content is heavy spicy and heavy hot, determining that the degree of the stain is heavy greasy, and further determining that the food order does not meet the recovery standard; if the food information of another food order is: if the food is spicy and hot and the additional content is slightly spicy, determining that the degree of the stain is slightly greasy, and further determining that the catering order meets the recovery standard; if the food information of another food order is as follows: the meal is spicy soup, the additional content is heavy spicy and hot, and the disposable protective layer is used, so that the degree of stains is determined to be not greasy, and the catering order is further determined to meet the recovery standard. The disposable protective layer is a protective layer arranged inside the dining box by a merchant according to the selection of a user in a dining system, such as tin foil, plastic film and the like.

It should be noted that the determination of the attribute condition of the lunch box is not limited to this, in other embodiments, the attribute condition of the lunch box includes the material of the lunch box and the stain degree of the lunch box at the same time, the specific determination process of the attribute condition of the lunch box is performed according to the processes described in the foregoing one example and another example, and the determination sequence of the material of the lunch box and the stain degree of the lunch box can be set according to the priority level. For example, if the material of the lunch box is considered to be the most important recycling standard, the material of the lunch box is preferentially judged, the degree of soiling of the lunch box is judged only when the material of the lunch box is a preset material, and if the material of the lunch box is not the preset material, the degree of soiling of the lunch box is not necessarily judged any more, and the lunch box is directly considered to not meet the recycling standard. The above description is only an example, the material of the lunch box and the priority level of the dirty degree of the lunch box can be changed according to the actual needs, and the skilled person can also increase or decrease the contents of the attribute conditions of the lunch box according to the actual needs.

In another embodiment, the recycling criteria includes meal box safety conditions, and the checking module 12 is further configured to check whether the used meal box meets the meal box safety conditions according to the meal detail information.

In an example, the restaurant detail information includes user attribute information, and the auditing module 12 may determine whether the lunch box used by the current restaurant order satisfies the lunch box safety condition through the user attribute information. For example, the auditing module 12 may determine whether the lunch box meets the safety condition of the lunch box according to the age information of the user, and in the user attribute information, if the age of the user is over forty years old, for example, the lunch box is considered not to meet the recycling standard of the safety condition of the lunch box; for another example, the auditing module 12 determines whether the lunch box meets the safety condition of the lunch box according to the position information of the user, and if the position of the user in the user attribute information is, for example, a hospital, it is considered that there is a possibility of carrying viruses or germs on the lunch box, and it is considered that the lunch box does not meet the recovery standard of the safety condition of the lunch box.

In another example, the restaurant detail information further includes user safety information, and the auditing module 12 further determines whether the lunch box used by the current restaurant order meets the safety condition of the lunch box according to the user safety information. As mentioned above, the user safety information is two-dimensional code data representing the health status of the user, if the auditing module 12 determines that the user does not have a health risk (for example, the user is healthy and not in contact with a patient with an infectious disease or does not enter a too high risk place) according to the two-dimensional code data, it is determined that the lunch box used by the current dining order meets the recycling standard of the safety condition of the lunch box, and if the auditing module 12 determines that the user has a health risk (for example, the user is in a sick stage or in contact with a patient with an infectious disease or does not enter a too high risk place) according to the two-dimensional code data, it is determined that the lunch box used by the current.

In other examples, the catering detail information further includes dispenser safety information, and the auditing module 12 determines whether the lunch box used by the current catering order meets the safety condition of the lunch box according to the dispenser safety information. As mentioned above, the safety information of the dispenser is two-dimensional code data representing the health status of the dispenser, if the audit module 12 determines that the dispenser does not have a health risk (for example, the dispenser is healthy and not in contact with a patient with an infectious disease or the historical delivery track does not relate to a high-risk location) according to the two-dimensional code data, it is determined that the lunch box allocated for the current dining order meets the recycling standard of the safety condition of the lunch box, and if the audit module 12 determines that the dispenser has a health risk (for example, the dispenser is in a sick period or in contact with a patient with an infectious disease or the historical delivery track relates to a high-risk location) according to the two-dimensional code data, it is determined that the lunch box allocated for the current.

For example, the auditing module 12 may further determine whether the safety condition of the meal box meets the recycling standard according to the source of the meal box in the merchant data in the meal detail information and the health condition of the meal preparing staff. It should be noted that, the above-mentioned judgment of the safety conditions of the meal boxes can exist simultaneously according to the actual requirements and can set the judgment sequence according to the priority, or can select any one or more of them to judge according to the requirements, whichever way, as long as one of them judges the safety conditions of the meal boxes does not meet the recovery standard, then the meal boxes allocated to the meal orders do not meet the recovery standard.

In practical applications, the conditions set by the recycling criteria are not limited to the above, in other embodiments, the recycling criteria includes attribute conditions of the lunch box and safety conditions of the lunch box, and the specific auditing process of the auditing module 12 is performed according to the processes described in the foregoing one embodiment and another embodiment, and the determining order of the attribute conditions of the lunch box and the safety conditions of the lunch box can be set according to the priority. For example, if the attribute condition of the lunch box is considered to be the most important recycling criterion, the attribute condition of the lunch box is preferentially determined, the safety condition of the lunch box is determined only when the attribute condition of the lunch box is determined to pass, and if the attribute condition of the lunch box is determined to fail, the safety condition of the lunch box is determined to be not satisfied any more, and the lunch box is directly considered to be not satisfying the recycling criterion. The above description is only an example, and the priority of the attribute condition and the safety condition of the meal box can be changed according to the actual requirement.

The display module 13 is configured to display information that the lunch box can be recycled in the display interface of the ordering system for the user to select the service that the lunch box can be recycled when the lunch box meets the recycling standard.

The audit module 12 audits the meal boxes allocated by the catering order to meet the recycling standard, and the display module 13 feeds the recyclable information related to the meal boxes back to the meal ordering system for executing the meal box recycling method, so that the meal ordering system displays the information in the display interface, and the user can click and select the recyclable service of the meal boxes. Please refer to fig. 5 and the description thereof for the interface of displaying how the recyclable information related to the lunch boxes is displayed in the ordering system, which is not described herein again.

As shown in fig. 5, after the information related to the recyclable lunch box can be displayed in the display interface of the ordering system in the manner of the recyclable lunch box reminder, the user can submit a recyclable lunch box request by triggering the recyclable lunch box reminder, the recyclable lunch box request includes recyclable configuration information, and the recyclable configuration information includes a plurality of information in the pickup time, the pickup location, and the user contact manner. For details of the configuration manner of the recycling configuration information and how to submit the request for recycling the lunch box, please refer to fig. 7 and the description thereof, which are not described herein again.

In view of this, the display module 13 further generates a box recycling order based on the received recycled meal box request to be displayed in the display interface of the distribution system for the distributor to receive the meal box recycling order. Wherein the request for recycling the lunch box is submitted through a ordering system based on the recycling configuration information.

In an embodiment, after receiving the lunch box recycling request, the display module 13 generates a lunch box recycling order based on the lunch box recycling request, where the lunch box recycling order includes recycling configuration information, that is, the lunch box recycling order includes at least two information of pickup time, pickup location, and user contact information. The display module 13 further sends the lunch box recovery order to the distribution system, and the distribution system displays the lunch box recovery order in a display interface of the system after receiving the lunch box recovery order, so that a distributor can automatically select an order for receiving the lunch box recovery order according to the recovery configuration information in the lunch box recovery order in combination with the distribution route and the working time of the distributor, and can generate a receiving response to send to a server after the distributor submits the lunch box recovery order. Wherein the delivery system is run by an application loaded in a dispatcher client.

In view of this, the display module 13 further generates meal box recycling feedback information to be displayed in a display interface of the meal ordering system based on the received receiving response corresponding to the meal box recycling order.

In an embodiment, after receiving the receiving response of the distribution system to the lunch box recycling order, the display module 13 obtains the dispenser data corresponding to the lunch box recycling order from the server database through the obtaining module 11, and generates the lunch box recycling feedback information according to the dispenser data. In one example, the meal box recycling feedback information includes the contact information of the distributor and the pick-up code allocated to the meal box recycling order. In another example, the lunch box recycling feedback information can also include names of the distributors and other distributor data related to the lunch box recycling order, which are not listed here.

In another embodiment, the display module 13 obtains the corresponding dispenser data from the server database by the obtaining module 11, and also obtains the two-dimensional code data for representing the health status of the dispenser according to the dispenser data, and the display module 13 generates the lunch box recycling feedback information according to the dispenser data and the two-dimensional code data. In an example, the lunch box recycling feedback information comprises a contact way of a distributor, safety information and a pick-up code distributed for a recycling order of the lunch box, wherein the safety information comprises any one or two of two-dimensional code data representing the health state of the distributor and a two-dimensional code generated according to the two-dimensional code data. In another example, the lunch box recycling feedback information may further include names of the distributors and other distributor data related to the lunch box recycling order, which are not listed here.

The display module 13 generates the lunch box recycling feedback information and sends the lunch box recycling feedback information to the ordering system, and the ordering system displays the lunch box recycling feedback information in a display interface of the ordering system, and the specific display manner of the ordering system is described in the following description of the lunch box recycling system, which is not described herein again.

In practical application, a dispenser arrives at a pickup location according to information in a lunch box order to recycle the lunch box, a user and lunch box recycling feedback information deliver the lunch box to the dispenser at the pickup location and provide a pickup code for the dispenser to be used as verification so as to avoid abnormal conditions such as mistaken pickup or wrong order pickup, the dispenser sends the lunch box back to a recycling point after taking the lunch box, and the recycling point performs unified treatment on the lunch box.

In order to implement a lunch box recycling mechanism and encourage users to recycle lunch boxes, the display module 13 further allocates virtual resources to the meal ordering system based on the received completion response corresponding to the lunch box recycling order, and the virtual resources are visually displayed in a display interface of the meal ordering system for users to obtain and use.

And the dispenser sends the lunch boxes obtained from the user to the recycling point, and the recycling order is considered to be finished. In one example, the meal box recovery order completion response is a completion response generated when the distribution system detects that the distributor triggers the operation order completion item. But not limited thereto, in another example, the completion response of the lunch box recovery order is a completion response generated when the recovery system detects that the trigger operation order completion item is detected. Wherein the recycle system is run by an application loaded in a recycle point client.

Further, the virtual resource allocated to the ordering system by the display module 13 may be, for example, a preset fixed amount or a random amount within a preset fixed range. The virtual resources allocated to the ordering system by the display module 13 may be any one of a fixed number of red packets, coupons, vouchers, points, or user grades, or the virtual resources allocated to the ordering system by the display module 13 may be any one of a random number of red packets, coupons, vouchers, points, or user grades within a preset fixed range. When the ordering system receives the virtual resource, the virtual resource is displayed in a display interface of the ordering system in a visual mode of any one of a red packet, a coupon, a voucher, a point or a user grade, so that the virtual resource can be used by a user.

The present application further provides an ordering system for providing lunch box recycling function for users, in embodiments, the ordering system is, for example, a user client, the user client is, for example, an electronic device loaded with APP application or having web page/website access capability, the electronic device includes components such as a memory, a memory controller, one or more processing units (CPUs), a peripheral interface, an RF circuit, an audio circuit, a speaker, a microphone, an input/output (I/O) subsystem, a display screen, other output or control devices, and an external port, which communicate through one or more communication buses or signal lines. The electronic device includes, but is not limited to, a desktop computer, a notebook computer, a tablet computer, a smart phone, a smart television, and the like. The user terminal may also be an electronic device composed of a host with a plurality of virtual machines and a human-computer interaction device (such as a touch display screen, a keyboard and a mouse) corresponding to each virtual machine.

In an embodiment, the user client communicates with a server in a network system, such as an online ordering system or platform of a business entity, the network may be the internet, one or more intranets, local area networks, wide area networks, storage local area networks, and the like, or a suitable combination thereof, and the type or protocol of the communication network between the publisher terminal and the server, between the responder terminal and the server, and the like in the embodiments of the present application are not limited in the present application.

In some embodiments of the present application, the server may be disposed on one or more entity servers according to various factors such as function, load, and the like. When distributed in a plurality of entity servers, the server side can be composed of servers based on a cloud architecture. For example, the server based on the cloud architecture includes a public cloud server and a private cloud server, where the public or private cloud server includes SaaS, PaaS, IaaS, and the like. The private cloud service end comprises a Mei Tuo cloud computing service platform, an Array cloud computing service platform, an Amazon cloud computing service platform, a Baidu cloud computing platform, a Tencent cloud computing platform and the like. The service side may also be constituted by a distributed or centralized cluster of servers. For example, the server cluster is composed of at least one entity server. Each entity server is provided with a plurality of virtual servers, each virtual server runs at least one functional module in the merchant information management service terminal, and the virtual servers are communicated with each other through a network.

Referring to fig. 9, which is a block diagram illustrating an embodiment of the ordering system 20 of the present application, the ordering system includes a detecting module 21, a submitting module 22, and a loading module 23.

The detection module 21 is configured to detect a trigger operation in a current display interface. In an embodiment, the detecting module 21 is, for example, a touch screen detector or an event monitor, and the touch screen detector detects that a manager performs a corresponding operation when a trigger event in a currently displayed page occurs. For example, the user triggers to open a recycling detail page or opens an order detail interface, or the user triggers to submit a recycling lunch box request, or the user configures information through triggering, etc. The event monitor receives event information from a peripheral interface. The event information includes information about a sub-event (e.g., a user touch on the touch-sensitive display system as part of a multi-touch gesture).

The submission module 22 is configured to submit a meal order in the order details interface.

In an embodiment, when the application program of the ordering system 20 is opened, the user client may add the food selected by the user based on the user's trigger operation in the presentation interfaces of the merchants in the ordering system 20, and load the order details interface when the detection module 21 detects that the user triggers the operation of the settlement item.

In an example, a restaurant order is displayed in the order detail interface, and the restaurant order includes merchant account information, meal information, and user account information. The merchant account information includes information such as the name or geographic location of the merchant that the user triggered to operate the selected merchant in ordering system 20. The food information includes food selected by the user in the selected merchant and additional content items that the user can trigger to add additional content to the food order, such as food flavor, whether disposable tableware is needed, etc. The user account information comprises a user contact way, a geographical position and the like corresponding to the catering order, and the user can modify the user account information through triggering operation. It should be noted that the specific contents of each piece of information included in the meal order are only examples, and in practical applications, those skilled in the art can selectively increase or decrease the information according to the information that can be actually provided in the meal order.

In another example, the order detail interface also shows a food order submitting request item, and the food order submitting request item can be triggered by a user to submit a food order. As shown in the schematic diagram of the order detail interface shown in fig. 3, the area a in the diagram is used for displaying a food order, "submitting the food order" in the diagram is used as a virtual key for submitting a food ordering request item, when the virtual key is triggered, the detection module 21 submits the food order to the server with the food box recycling processing system through the submission module 22, and the server reviews and recycles the food boxes according to the food box recycling processing method.

In another example, a meal box check request item is also displayed in the order detail interface, the meal order is a meal order submitted by triggering the submitted order request item, and the submitted meal order includes a meal box check request submitted by triggering the meal box check request item by a user. As shown in fig. 4, the schematic diagram of the order detail interface is shown, where an area a is used to display a food order, an area a is "a resource-saving environment protection environment," i agrees to apply for recycling of a meal box "as a virtual key of a meal box check request item, and when the virtual key is triggered, the interface" is a resource-saving environment protection environment, "i agrees to apply for recycling of the meal box" is displayed as selected (for example, the virtual key may be selected in a manner of changing color from gray to other color, displaying a check at a corresponding position of the meal box check request item, and the like), on this basis, a user triggers to operate the virtual key to "submit an order" to submit a food order, so that the food order submitted to a server includes the meal box check request submitted by the user, and the server performs check and recycling processing on the meal box according to the meal.

The loading module 23 is configured to load a recycling meal box reminding item when the meal box allocated to the meal order meets the recycling standard, so that the user can select the recyclable service of the meal box.

When the server executes the meal box recycling method, the meal box allocated by the catering order submitted by the audit submitting module 22 meets the recycling standard, the recyclable information about the meal box is sent to the user client, and the loading module 23 loads the reminding item of the recycled meal box according to the recyclable information about the meal box. For example, as shown in fig. 5, the display interface including the recovered lunch box reminder item is displayed above the display interface of the ordering system 20 in text, that is, the lunch box reminder item is displayed above the display interface of the ordering system 20 in text as "the lunch box in the restaurant order can be recovered, please click to recover" to remind the user, but not limited to this, and the recovered lunch box reminder item may also be selectively loaded in the display interfaces such as the order detail interface or the restaurant order completion interface in an image, text, or text-combined image manner according to the setting.

In practical applications, the user can select the recyclable service of the lunch box by triggering the reminding item of the recyclable lunch box. In view of this, the submitting module 22 is further configured to submit a recycling cutlery box request when the detecting module detects that the recycling cutlery box reminder is triggered. The retrieved meal box request is used for generating a meal box retrieved order to be displayed in a distribution system, and the distribution system is operated by an application program loaded in a distributor client.

In one embodiment, the loading module 23 loads a recycle detail page when the detection module 21 detects that the reminder of the recycle lunch box is triggered. In some examples, a recycle configuration column is displayed in the recycle detail page, so that a user configures recycle configuration information under the corresponding column through a trigger operation, where the recycle configuration information includes at least two information of pickup time, pickup location, and user contact information. Further, a request item for submitting a recycling lunch box is also displayed in the recycling detail page, after the user completes the configuration of the recycling configuration information, the submitting module 22 submits the recycling lunch box request when the user detects the triggering operation of the submitting recycling lunch box request item through the detecting module 21, wherein the recycling lunch box request includes the recycling configuration information.

As shown in fig. 7, the recycling detail page shows recycling configuration entries, which include pickup time, pickup location, and contact information. The selection of the pickup time can be realized by the triggering operation of the pull-down key of the pickup time by the user. The pickup location can be acquired through the triggering operation of the user on the pickup location, for example, the pre-stored address is acquired as the pickup location, or a new address is added through manual input as the pickup location, or positioning information is acquired as the pickup location. The configuration of the contact way can be realized through the triggering operation of the user on the contact way, for example, the pre-stored number is selected to be obtained as the contact way, or a new number is added to be used as the contact way through manual input, or the number in the address list is obtained to be used as the contact way. After the configuration of the recycling configuration information is completed under the recycling configuration column, the submitting module 22 submits a recycling lunch box request to the server when the user submits a virtual key "confirm" of the recycling lunch box request item through a trigger operation.

The submitting module 22 submits the lunch box recycling request to the server, and the server generates lunch box recycling feedback information according to the lunch box recycling processing method.

As mentioned above, the lunch box recycling feedback information includes a plurality of information in the contact information, the safety information and the pick-up code of the dispenser, and the safety information includes the two-dimensional code data or the two-dimensional code representing the health status of the dispenser. Therefore, the loading module 23 can selectively display part or all of various information in the lunch box recycling feedback information in the display interface based on the received lunch box recycling feedback information. For example, the loading module 23 loads a feedback information display interface after the detection module 21 detects that the user submits the triggering operation of the lunch box recycling request, and displays the lunch box recycling feedback information in the feedback information display interface, in an example, only the contact information and the pick-up code of the dispenser are displayed in the feedback information display interface. In another example, the feedback information display interface displays a contact way of a dispenser, a pickup code and a two-dimensional code representing the health state of the dispenser, for example, when the health state of the dispenser is represented as healthy, the two-dimensional code is displayed as a green centering icon, when the health state of the dispenser is represented as general, the two-dimensional code is displayed as a yellow reminding icon, and when the health state of the dispenser is represented as unhealthy, the two-dimensional code is displayed as a red warning icon. It should be noted that, in some other examples, the feedback information display interface may further display a request item for rejecting the recycling of the lunch box or a request item for replacing the dispenser, so as to provide a path for providing other solutions to the user in time to avoid the risk when the user determines that the recycling of the lunch box is risky according to the safety information.

In practical application, a dispenser arrives at a pickup location according to information in a lunch box order to recycle the lunch box, a user and lunch box recycling feedback information deliver the lunch box to the dispenser at the pickup location and provide a pickup code for the dispenser to be used as verification so as to avoid abnormal conditions such as mistaken pickup or wrong order pickup, the dispenser sends the lunch box back to a recycling point after taking the lunch box, and the recycling point performs unified treatment on the lunch box.

As mentioned above, in order to implement the lunch box recycling mechanism and encourage users to recycle the lunch boxes, the lunch box recycling processing system executes the aforementioned lunch box recycling processing method by the loaded server, so as to implement the completion response based on the lunch box recycling order to allocate virtual resources to the ordering system 20. In view of this, the loading module 23 is also configured to receive the virtual resource and present it in a presentation interface.

As indicated above, the virtual resource allocated by the server to the ordering system 20 may be, for example, a preset fixed amount or a random amount within a preset fixed range. The virtual resource includes any one of a red packet, a coupon, a voucher, a credit, or a user grade, and the virtual resource allocated by the service end to the ordering system 20 may be any one of a fixed number of red packets, coupons, vouchers, credits, or a user grade, or the virtual resource allocated by the service end to the ordering system 20 may be any one of a random number of red packets, coupons, vouchers, credits, or a user grade within a preset fixed range. Thus, when receiving the virtual resource, the loading module 23 loads the virtual resource as any one of a red package, a coupon, a voucher, a credit, or a user rating according to the type of the received virtual resource, and displays the virtual resource in the display interface of the ordering system 20, for example, a user may make the virtual resource disappear from the current interface by triggering operation of the virtual resource displayed in the display interface of the user, or the virtual resource disappears from the current interface by displaying the virtual resource in the display interface for a preset time (e.g., 3s), and the user may view the virtual resource acquired by the user by triggering operation of the red package voucher in the user account detail page of the ordering system 20.

In an embodiment, the cloud server system may be arranged on one or more entity servers according to a plurality of factors such as functions, loads, and the like. When distributed in a plurality of entity servers, the server may be composed of servers based on a cloud architecture. For example, the server based on the cloud architecture includes a public cloud server and a private cloud server, where the public or private cloud server includes SaaS, PaaS, IaaS, and the like. The private cloud service end comprises a Mei Tuo cloud computing service platform, an Array cloud computing service platform, an Amazon cloud computing service platform, a Baidu cloud computing platform, a Tencent cloud computing platform and the like. The server may also be formed by a distributed or centralized cluster of servers. For example, the server cluster is composed of at least one entity server. Each entity server is provided with a plurality of virtual servers, each virtual server runs at least one functional module in the merchant information management server, and the virtual servers are communicated with each other through a network.

Referring to fig. 10, which is a block diagram illustrating a cloud server system according to an embodiment of the present application, as shown, the cloud server system 30 includes at least one storage device 31 and at least one processing device 32.

The at least one storage device 31 for storing at least one program; in embodiments, the storage device 31 comprises a storage server or memory, which may comprise high speed random access memory, and may also comprise non-volatile memory, such as one or more magnetic disk storage devices, flash memory devices, or other non-volatile solid state storage devices. In some embodiments, the memory may also include memory that is remote from the one or more processors, such as network-attached memory accessed via RF circuitry or external ports and a communication network (not shown), which may be the internet, one or more intranets, local area networks, wide area networks, storage area networks, and the like, or suitable combinations thereof. The memory controller may control access to the memory by other components of the device, such as the CPU and peripheral interfaces.

The at least one processing device 32 is connected to the storage device 31, and is configured to execute at least one embodiment described above for the lunch box recycling method when the at least one program is run. The processing device 32 is, for example, a server, such as an application server or the like, that includes a processor operatively coupled with a memory and/or a non-volatile storage device. More specifically, the processor may execute instructions stored in the memory and/or the non-volatile storage device to perform operations in the computing device, such as generating image data and/or transmitting image data to an electronic display. As such, the processor may include one or more general purpose microprocessors, one or more application specific processors (ASICs), one or more field programmable logic arrays (FPGAs), or any combination thereof.

Referring to fig. 11, a block diagram of an embodiment of an electronic device according to the present invention is shown, and as shown, an electronic device 40 according to the present invention includes: a display 41, at least one memory 42, and at least one processor 43.

In an embodiment, the electronic device is, for example, an electronic device loaded with an APP application or having web/website access capability, and includes components such as a memory, a memory controller, one or more processing units (CPUs), a peripheral interface, RF circuitry, audio circuitry, a speaker, a microphone, an input/output (I/O) subsystem, a display screen, other output or control devices, and an external port, which communicate via one or more communication buses or signal lines. The electronic device includes, but is not limited to, a personal computer such as a desktop computer, a notebook computer, a tablet computer, a smart phone, a smart television, and the like. The electronic device may also be an electronic apparatus composed of a host with a plurality of virtual machines and a human-computer interaction device (such as a touch display screen, a keyboard and a mouse) corresponding to each virtual machine.

The display 41 is functionally implemented by a graphics module in the electronic device, which includes various known software components for rendering and displaying graphics on a touch screen, and a controller for displaying the same. Note that the term "graphic" includes any object that may be displayed to a user, including but not limited to text, web pages, icons (e.g., user interface objects including soft keys), digital images, videos, animations and the like. The display screen is, for example, a touch screen, and provides both an output interface and an input interface between the device and the user. The touch screen controller receives/sends electrical signals from/to the touch screen. The touch screen then displays visual output to the user. This visual output may include text, graphics, video, and any combination thereof.

The at least one memory 42 is for storing at least one program; in embodiments, the memory may comprise high speed random access memory, and may also comprise non-volatile memory, such as one or more magnetic disk storage devices, flash memory devices, or other non-volatile solid state storage devices. In certain embodiments, the memory may also include memory that is remote from the one or more processors, such as network attached memory that is accessed via RF circuitry or external ports and a communications network, which may be the internet, one or more intranets, local area networks, wide area networks, storage area networks, and the like, or suitable combinations thereof. The memory controller may control access to the memory by other components of the device, such as the CPU and peripheral interfaces.

In an embodiment, the at least one processor 43 is connected to the at least one memory 42, and is configured to execute and implement at least one embodiment of the lunch box recycling method, such as the embodiment described in any one of fig. 2 to 7, when the at least one program is executed. In an embodiment, the processor 43 is operatively coupled to memory and/or non-volatile storage. More specifically, the processor may execute instructions stored in the memory and/or the non-volatile storage device to perform operations in the computing device, such as generating image data and/or transmitting image data to an electronic display. As such, the processor may include one or more general purpose microprocessors, one or more special purpose processors, one or more field programmable logic arrays, or any combination thereof.

The present application also provides a computer readable and writable storage medium storing a computer program that when executed implements at least one of the embodiments described above for a meal box recycling method, such as the embodiment described in fig. 1, or implements at least one of the embodiments described above for a meal box recycling method, such as the embodiment described in any of fig. 2-7.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application.

In addition, any connection may be properly termed a computer-readable medium, for example, if the instructions are transmitted from a website, server, or other remote source using a coaxial cable, fiber optic cable, twisted pair, digital subscriber line (DS L), or wireless technologies such as infrared, radio, and microwave, then the coaxial cable, fiber optic cable, twisted pair, DS L, or wireless technologies such as infrared, radio, and microwave are included in the definition of medium.

In one or more exemplary aspects, the functions described in the computer program of the methods described herein may be implemented in hardware, software, firmware, or any combination thereof. When implemented in software, the functions may be stored on or transmitted over as one or more instructions or code on a computer-readable medium. The steps of a method or algorithm disclosed herein may be embodied in processor-executable software modules, which may be located on tangible, non-transitory computer readable and writable storage media. Tangible, non-transitory computer readable and writable storage media may be any available media that can be accessed by a computer.

The flowcharts and block diagrams in the figures described above of the present application illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

The above embodiments are merely illustrative of the principles and utilities of the present application and are not intended to limit the application. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present application. Accordingly, it is intended that all equivalent modifications or changes which may be accomplished by those skilled in the art without departing from the spirit and scope of the present disclosure be covered by the claims which follow.

Claims (21)

1. A lunch box recycling method is characterized by comprising the following steps:

obtaining catering detail information containing a catering order based on the catering order; wherein the catering order is submitted through an ordering system;

checking whether the lunch boxes matched with the catering orders meet the recycling standard or not according to the catering detail information;

when the lunch box meets the recycling standard, displaying recyclable information related to the lunch box in a display interface of the ordering system for a user to select recyclable service of the lunch box; the meal ordering system is operated by an application program loaded on a user client.

2. A method for recycling and processing meal boxes according to claim 1, wherein the meal orders are meal orders submitted by triggering an order submitting request item in the meal ordering system.

3. A lunch box recycling method as claimed in claim 1, wherein the meal orders are meal orders submitted by triggering a submit order request item in the meal ordering system, and the submitted meal orders comprise lunch box audit requests submitted by users.

4. A lunch box recycling method as claimed in claim 1, wherein said step of checking whether the lunch box used in the catering order meets the recycling standard according to the catering detail information comprises: and determining attribute information of the lunch box matched with the catering order according to the catering detail information, wherein the attribute information comprises at least one of lunch box material and stain degree.

5. A lunch box recycling method according to claim 1, wherein the catering detail information includes at least one of user attribute information and user safety information; the user attribute information comprises at least one of user age information and user position information, and the user safety information comprises two-dimensional code data representing the health state of the user.

6. A method of recycling a lunch box according to claim 1, further comprising the step of generating a box recycling order based on the received request for recycling the lunch box to be displayed in a display interface of a distribution system for a distributor to receive the recycling order of the lunch box; the recycling meal box request is submitted through an ordering system based on recycling configuration information, and the recycling configuration information comprises a plurality of information in pickup time, pickup place and user contact information.

7. The lunch box recycling method according to claim 6, further comprising a step of generating lunch box recycling feedback information based on the received receiving response corresponding to the lunch box recycling order to be displayed in a display interface of the ordering system, wherein the lunch box recycling feedback information comprises a plurality of information among a contact information of a distributor, safety information and a pick-up code, and the safety information comprises two-dimensional code data or a two-dimensional code representing the health status of the distributor.

8. The meal box recycling processing method according to claim 6, further comprising allocating a virtual resource to the meal ordering system based on the received completion response corresponding to the meal box recycling order, wherein the virtual resource is visually displayed in a display interface of the meal ordering system for a user to obtain.

9. A cutlery box recycling system, comprising:

the acquisition module is used for acquiring catering detail information containing a catering order based on the catering order; wherein the catering order is submitted through an ordering system;

the checking module is used for checking whether the lunch boxes matched with the catering orders meet the recycling standard or not according to the catering detail information;

the display module is used for displaying the recyclable information related to the lunch boxes in a display interface of the ordering system when the lunch boxes meet the recycling standard so that a user can select the recyclable service of the lunch boxes; the meal ordering system is operated by an application program loaded on a user client.

10. A cloud server system, comprising:

at least one storage device for storing at least one program;

at least one processing device connected with the storage device and used for executing and implementing the lunch box recycling processing method according to any one of claims 1-8 when running the at least one program.

11. A lunch box recycling method is characterized by comprising the following steps:

submitting a meal order in an order detail interface;

and loading a recovered lunch box reminding item when the lunch box allocated by the received catering order meets the recovery standard so that the user can select recyclable service of the lunch box.

12. A lunch box recycling method according to claim 11, wherein the order detail interface displays a submitted order request item, and the meal order is a meal order submitted by triggering the submitted order request item.

13. A lunch box recycling method according to claim 12, wherein a lunch box check request item is also displayed in the order detail interface, the meal order is a meal order submitted by triggering the submitting order request item, and the submitted meal order comprises a lunch box check request submitted by a user triggering the lunch box check request item.

14. A method of recycling cutlery box items as recited in claim 11, further comprising the step of detecting that the reminder of the recycled cutlery box item is triggered and submitting a request for recycling of the cutlery box item, the request for recycling of the cutlery box item being used to generate a recycled order for the cutlery box item to be displayed on a distribution system, the distribution system being run by an application program loaded on a distributor client.

15. A cutlery box retrieval method as claimed in claim 14 wherein the detecting that the retrieved cutlery box reminder is triggered further loads a retrieval details page for configuring retrieval configuration information, the retrieval configuration information being included in the retrieved cutlery box request; the recovery configuration information comprises a plurality of information in pickup time, pickup place and user contact information.

16. A lunch box recycling method as claimed in claim 13, further comprising the step of receiving and displaying lunch box recycling feedback information in the display interface, wherein the lunch box recycling feedback information comprises a plurality of information of the contact information of the dispenser, safety information and the pick-up code, and the safety information comprises two-dimensional code data or two-dimensional code data representing the health status of the dispenser.

17. A method of recycling cutlery box as claimed in claim 13 further comprising the step of receiving and displaying in a display interface virtual resources assigned by a cutlery box recycling processing system based on the received completion response for the order for recycling cutlery box.

18. A meal ordering system, comprising:

the detection module is used for detecting the trigger operation in the current display interface;

the submitting module is used for submitting a meal order in the order detail interface;

and the loading module is used for loading a recovered lunch box reminding item when the lunch box allocated by the received catering order meets the recovery standard so that the user can select the recyclable service of the lunch box.

19. The meal ordering system of claim 18, wherein the submitting module is further configured to submit a recycled meal box request when the detecting module detects that the recycled meal box reminder is triggered, the recycled meal box request being used to generate a recycled meal box order to be displayed in a distribution system, the distribution system being run by an application program loaded in a distributor client.

20. An electronic device, comprising:

a display;

at least one memory for storing at least one program;

at least one processor, connected to the at least one memory, for implementing the lunch box recycling method according to any one of claims 11 to 17 when running the at least one program.

21. A computer-readable storage medium storing at least one program which, when executed by a processor, implements a method for recycling a lunch box according to any one of claims 1 to 8, or a method for recycling a lunch box according to any one of claims 11 to 17.

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