CN116485315A - Order placing self-checking and error correcting system and method - Google Patents

Abstract

The invention discloses a self-checking and error-correcting system and method for order placement, which solves the problems that the prior art has low replenishment efficiency, is not timely enough and can not correct errors in real time when abnormal behaviors occur; comparing the distribution boxing information with the storage cabinet partition information; the food material box of the storage cabinet detects in real time, and the food is discarded and counted at the same time when the food is spoiled; and receiving an order instruction, counting according to the cooking information, and executing the replenishment by the background when the counting is lower than a critical value. The invention has the advantages of high replenishment time efficiency and real-time error correction and updating.

Description

Order placing self-checking and error correcting system and method

Technical Field

The invention relates to the technical field of computer networks, in particular to a system and a method for order placement self-checking and error correction.

Background

The replenishment is a service derived from sorting separation, and because the capacity of the cabinet for storing food is limited, food is reduced due to the consumption of orders and the storage time of food or due to food deterioration or damage caused by some reasons, if the needed food is found to be in shortage when customer orders are generated, the purchasing desire of customers is influenced, and meanwhile, the picking efficiency is greatly reduced.

In the prior art, for example, "a system, a method, a scheduling server, and a processing server for realizing order management" disclosed in chinese patent literature, its bulletin number is CN107527171a, a scheduling server provided with a first counter for pre-counting and a second counter for actual counting, and a plurality of processing servers; the scheduling server is used for determining that an order task is required to be placed, placing the order task and counting the number of the placed order task through the first counter; and obtaining a notice of successful order processing completion, and counting the number of the successfully processed orders through a second counter. While there is a guarantee of accurate control over order placement based on a distributed system, these controls do not have a corresponding error correction and feedback system.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, the replenishment efficiency is low, the replenishment is not enough in time, and the real-time error correction cannot be performed when abnormal behaviors occur, and provides a system and a method for order placement self-checking and error correction. The system has the advantages of timely replenishment, high efficiency and real-time error correction and update.

In one aspect, the invention provides a system for self-checking and correcting errors of order placement, which comprises a food box coding module, a food material distribution boxing module and a food material updating module, wherein the food box coding module is connected with a storage cabinet coding module and an error correction updating module for coding; the storage cabinet coding module is connected with the error correction updating module, the food deterioration detecting module and the counting module and is used for coding the storage cabinet partition; the food spoilage detection module is connected with the counting module and used for detecting spoilage of the food in the storage cabinet and checking whether the food spoils or not and discarding the spoilage; the counting module is connected with the food deterioration detection module and used for counting and feeding back the residual quantity of the food materials; and the error correction updating module is respectively connected with the food box coding module and the counting module, compares the coded information and performs error correction updating when reporting errors. The invention solves the problems of low replenishment efficiency, untimely replenishment and incapability of correcting errors in real time when abnormal behaviors occur in the prior art, and has the advantages of high replenishment efficiency in time and capability of correcting errors and updating in real time.

Preferably, the error correction updating module includes: the comparison unit is connected with the food box coding module and is used for inputting and comparing corresponding dish coding information and image information; and (3) comparing two units: the counting module is connected with the counting module and used for judging whether the food material box codes are consistent with the partition codes of the storage cabinet or not; and (3) comparing three units: and the counting unit is connected with the counting unit and used for judging whether the order code is matched with the cabinet partition code or not. The comparison unit can ensure that the information can be updated and corrected in real time when the information is not matched, and ensure the accuracy of the information.

Preferably, the food material box coding module includes: the distribution unit is connected with the box coding unit and used for distributing and boxing the processed food materials; and the box coding unit is connected with the storage cabinet coding module and used for coding and generating the allocated food material boxes. The coding module is convenient for manage the placing position of food material box and storing cabinet, and the code has uniqueness, and the comparison unit can discover fast when the mistake.

Preferably, the counting module includes: the first counting unit is connected with the second counting unit and used for counting dishes for executing the cooking program; and the counting two units are connected with the food spoilage detection unit and count the food which is detected to be spoiled. The counting module can timely find that food is lower than a critical value, alarm is carried out to execute a replenishment program, and replenishment efficiency is improved.

In another aspect, the present invention provides a method for self-checking and correcting an order, the method comprising the steps of: s1: comparing the partition information of the storage cabinets according to the distribution boxing information box; s2: the food material box of the storage cabinet detects in real time, and the food is discarded and counted at the same time when the food is spoiled; s3: and receiving an order instruction, counting according to the cooking information, and executing the replenishment by the background when the counting is lower than a critical value.

Preferably, the step S1 specifically includes the following steps: s1.1: the food material boxing generates codes, samples are taken from the same batch of food materials, input and comparison are carried out on corresponding dish code information and image information, error reporting is carried out on inconsistent information, and boxing updating information is redistributed; s1.2: the storage cabinet generates codes, the food material box codes and the storage cabinet codes are compared, whether the codes are consistent or not is judged, when the codes are consistent, the storage cabinet counts, inconsistent error reporting is repositioned, and the food material box is moved to a corresponding cabinet partition; s1.3: comparing the stored partition codes of the corresponding cabinets with the order codes, judging whether the cabinet codes are matched, executing a cooking program when the cabinet codes are matched, reporting errors and repositioning preset cabinet partitions when the cabinet codes are not matched. The information comparison can reduce the probability of order errors caused by code mismatch.

Preferably, the step S3 specifically includes the following steps: s3.1: taking out food material execution cooking programs corresponding to the food material box codes through order codes, and taking out the counting total number of the execution cooking programs as B; s3.2: the total count stored in the corresponding cabinet partition is A, the total count of discarded spoiled foods is D, the critical value is set as C, and when the value of A minus B minus D is smaller than the critical value, an alarm is given, and the background executes a replenishment program. The counting module can accurately control food after order consumption and deterioration loss, and real-time monitoring is performed to ensure timely replenishment.

The beneficial effects of the invention are as follows: according to the invention, the food box coding module and the storage cabinet coding module can be used for rapidly managing the placement positions of the food box and the storage cabinet, the codes are unique, and the system can be rapidly found out in error; the food spoilage detection module detects whether food spoils in real time, so that spoiled food is avoided when the order is cooked, and the freshness of the food is ensured; the counting module can timely find that the food is lower than the critical value, alarm is carried out to execute the replenishment program, and the replenishment efficiency is improved; the error correction updating module can reduce the probability of order errors caused by code mismatch; the system has the advantages of timely replenishment, high efficiency and real-time error correction and update. The invention solves the problems that the goods supplementing efficiency is low, the goods supplementing is not timely enough, and the real-time error correction can not be carried out when the information error occurs in the prior art.

Drawings

In order to more clearly illustrate the embodiments or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the invention and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a method for self-checking and correcting an order placement according to the present invention.

FIG. 2 is a block diagram of a system for order placement self-checking and error correction according to the present invention.

Detailed Description

The following describes a specific embodiment of the technical scheme of the present invention by way of examples and with reference to the accompanying drawings.

Example 1: the invention relates to a system for self-checking and correcting errors of order placement, which is shown by referring to figures 1 and 2, and comprises a food box coding module, a storage cabinet coding module and an error correction updating module, wherein the food box coding module is connected with the storage cabinet coding module and the error correction updating module, is assembled into a food box after being processed, and correspondingly codes the assembled food box; the storage cabinet coding module is connected with the error correction updating module, the food deterioration detecting module and the counting module and used for partitioning the storage cabinet and coding after the partitioning; the food spoilage detection module is connected with the counting module and used for detecting spoilage of food in the food material box of the storage cabinet and checking whether the food is spoiled or not, and discarding the food if the food is spoiled; the counting module is connected with the food deterioration detection module and used for counting and feeding back the residual quantity of the food materials; and the error correction updating module is respectively connected with the food box coding module and the counting module, compares the coded information and performs error correction updating when reporting errors. The error correction updating module comprises: the comparison unit is connected with the food box coding module and is used for inputting and comparing food box coding information corresponding to dishes and dish image information; the comparison unit II is connected with the counting module and used for judging whether the food material box codes are consistent with the partition codes of the corresponding storage cabinets; the comparison three units are connected with the counting one unit and are used for judging whether the order codes are matched with the partition codes of the storage cabinet or not; the comparison unit can ensure that the information can be updated and corrected in real time when the information is not matched, and ensure the accuracy of the information. The food material box coding module includes: the distribution unit is connected with the box coding unit and used for distributing and boxing the processed food materials; the box coding unit is connected with the storage cabinet coding module and used for coding and generating the distributed food material boxes; the storage cabinet coding module comprises: the cabinet coding unit is connected with the partition unit, and the storage cabinet directly performs coding and information input; the partition unit is connected with the comparison unit and used for partitioning the coded storage cabinet; the food box coding module and the storage cabinet coding module can be used for rapidly managing the placement positions of the food box and the storage cabinet, and the codes are unique, so that the system can be rapidly found in error. The counting module comprises: the first counting unit is connected with the second counting unit and counts the dishes consumed by executing the cooking program; a counting unit connected to the food spoilage detection unit for counting when the spoiled food is detected to be discarded; the counting module can timely find that food is lower than a critical value, alarm is carried out to execute a replenishment program, and replenishment efficiency is improved.

Example 2: the invention relates to a method for self-checking and correcting order placement, which is shown in a reference figure 1, and comprises the following steps: s1: comparing the food material box information of the distribution box after the food material processing with the coding information of the storage cabinet after the food material box storage cabinet is partitioned; s2: the food material box of the storage cabinet carries out real-time detection through the food spoilage detection module, and when spoilage is detected, spoiled food is discarded and counted; s3: and receiving an order instruction, counting according to the quantity of foods required in the cooking information, alarming when the residual quantity of the foods is lower than a set critical value, and executing a replenishment program in the background to replenish the foods required. The step S1 specifically comprises the following steps: s1.1: the method comprises the steps of generating codes after boxing food materials, sampling the food materials in the same batch, inputting and comparing corresponding dish code information and image information, reporting errors when the comparison information is inconsistent, and reallocating the boxing and updating the code information by a system; s1.2: the storage cabinet generates codes, compares the codes of the food material boxes with the codes of the storage cabinet, judges whether the code information is consistent, stores the food material boxes into the storage cabinet for counting when the code information is consistent, reports errors when the code information is inconsistent, and then relocates the food material boxes to corresponding storage cabinet partitions; s1.3: comparing the stored partition codes of the corresponding storage cabinets with the order codes, judging whether the codes are matched, executing a cooking program when the codes are matched, reporting errors and repositioning a preset cabinet partition when the codes are not matched; multiple information comparisons can reduce the probability of order errors due to code mismatch. The step S3 specifically comprises the following steps: s3.1: taking out food material execution cooking programs corresponding to the food material box codes through order codes, and taking out the counting total number of the execution cooking programs as B; s3.2: storing the total count of the corresponding cabinet partitions into A, discarding the total count of spoiled foods into D, setting a critical value into C, alarming when the value of A minus B minus D is smaller than the critical value, and executing a replenishment program in the background; the counting module can accurately control food after order consumption and deterioration loss, and real-time monitoring is performed to ensure timely replenishment. The order encoding requires receiving order instructions for re-use with string conversion instructions.

In addition to the above embodiments, the technical features or technical data of the present invention may be rearranged and combined within the scope of the claims and the description of the present invention to constitute new embodiments, which may be implemented without inventive effort by those skilled in the art, and thus, embodiments of the present invention not described in detail should be considered as embodiments of the present invention within the scope of the protection of the present invention.

Claims (9)

1. An order placement self-checking and error-correcting system, comprising:

the food box coding module is connected with the storage cabinet coding module and the error correction updating module, and food materials are distributed and boxed for coding;

the storage cabinet coding module is connected with the error correction updating module, the food deterioration detecting module and the counting module and is used for coding the storage cabinet partition;

the food spoilage detection module is connected with the counting module and used for detecting spoilage of the food in the storage cabinet and checking whether the food spoils or not and discarding the spoilage;

the counting module is connected with the food deterioration detection module and used for counting and feeding back the residual quantity of the food materials;

and the error correction updating module is respectively connected with the food box coding module and the counting module, compares the coded information and performs error correction updating when reporting errors.

2. The order placement self-checking and error-correcting system according to claim 1, wherein said error-correcting and updating module comprises: the comparison unit is connected with the food box coding module and is used for inputting and comparing corresponding dish coding information and image information; the comparison unit II is connected with the counting module and used for judging whether the food material box codes are consistent with the partition codes of the storage cabinet;

and the comparison three units are connected with the counting one unit and are used for judging whether the order codes are matched with the partition codes of the storage cabinet.

3. The order placement self-checking and error-correcting system according to claim 1 or 2, wherein the food material cartridge encoding module comprises:

the distribution unit is connected with the box coding unit and used for distributing and boxing the processed food materials;

and the box coding unit is connected with the storage cabinet coding module and used for coding and generating the allocated food material boxes.

4. The order placement self-checking and error-correcting system according to claim 2, wherein said storage bin encoding module comprises:

the cabinet coding unit is connected with the partition unit, and the storage cabinet directly performs coding and information input;

and the partition unit is connected with the comparison unit and used for partitioning the encoded storage cabinet.

5. A self-checking and error correction system for placing orders according to claim 1 or 2, wherein said counting module comprises: the first counting unit is connected with the second counting unit and used for counting dishes for executing the cooking program;

and the counting two units are connected with the food spoilage detection unit and count the food which is detected to be spoiled.

6. A method of self-checking and error-correcting an order using the system of any one of claims 1 or 2 or 3 or 4 or 5, the method comprising the steps of:

s1: comparing the distribution boxing information with the storage cabinet partition information;

s2: the food material box of the storage cabinet detects in real time, and the food is discarded and counted at the same time when the food is spoiled;

s3: and receiving an order instruction, counting according to the cooking information, and executing the replenishment by the background when the counting is lower than a critical value.

7. The method for self-checking and correcting an order according to claim 6, wherein said step S1 comprises the steps of:

s1.1: the food material boxing generates codes, samples are taken from the same batch of food materials, input and comparison are carried out on corresponding dish code information and image information, error reporting is carried out on inconsistent information, and boxing updating information is redistributed;

s1.2: the storage cabinet generates codes, the food material box codes and the storage cabinet codes are compared, whether the codes are consistent or not is judged, when the codes are consistent, the storage cabinet counts, inconsistent error reporting is repositioned, and the food material box is moved to a corresponding cabinet partition;

s1.3: comparing the stored partition codes of the corresponding cabinets with the order codes, judging whether the cabinet codes are matched, executing a cooking program when the cabinet codes are matched, reporting errors and repositioning preset cabinet partitions when the cabinet codes are not matched.

8. The method for self-checking and correcting an order according to claim 6, wherein said step S3 comprises the steps of:

s3.1: taking out food material execution cooking programs corresponding to the food material box codes through order codes, and taking out the counting total number of the execution cooking programs as B;

s3.2: the total count stored in the corresponding cabinet partition is A, the total count of discarded spoiled foods is D, the critical value is set as C, and when the value of A minus B minus D is smaller than the critical value, an alarm is given, and the background executes a replenishment program.

9. The method of claim 8, wherein the order encoding requires receiving order instructions for re-use of string conversion instructions.