CN111667211B - Intelligent weight detection method and system - Google Patents

Abstract

The intelligent weight detecting method and system provided by the embodiment of the invention mainly comprise the following steps: receiving a check weighing application of a user, and generating a check weighing order; acquiring first check weight information of a checked object; overweight detection is carried out on the detected object; if the overweight detection is qualified, generating an electronic pound sheet of the detected object; generating a temporary entry and exit warehouse-in order; acquiring second check weight information of the checked object; performing primary check weight verification on check weight information of the checked object by utilizing an intelligent check weight subsystem; and if the check weight check result is qualified, generating a formal entry and exit list. The systematic, procedural, intelligent and safe intelligent weight checking method and system provided by the embodiment of the invention manage weight checking information in the links of transportation production and storage service of the existing logistics park, and solve the problems that the weight checking information is inconsistent before and after the production link and the traditional paper weight checking bill can not realize informatization. By introducing the check weight verification method, the transportation risk caused by overweight can be effectively avoided, and the production efficiency of a logistics park is improved.

Description

Intelligent weight detection method and system

Technical Field

The embodiment of the invention relates to the technical field of automatic control, in particular to an intelligent weight detecting method and system.

Background

At present, with the strong promotion of the construction of modern logistics base demonstration projects, the overall intelligent level of a logistics park is still lower, and particularly, the railway logistics park is still mainly operated in a traditional mode. The main industry transportation distribution and storage loading and unloading of the logistics park, the operation income of the railway logistics park and the like relate to the weight index of goods. Therefore, whether the weight of the goods is detected (simply referred to as the check weight) is an important index related to the personal interests of the operators and users of the railway logistics park.

Taking a user handling transportation service or storage service as an example, firstly, the user needs to go to a field business hall or a telephone network and the like to put forward demands, and when goods enter, a person on duty at the entering site opens a paper pound bill. Then, the user holds the paper bill to handle the loading and unloading operation or the storage operation. And finally, checking the weight by loading and unloading operators, comparing the weight with the weight, and if the weight difference is within the allowable range, generating relevant service documents and finishing the service according to the weight difference.

However, the weight checking method for handling the main industry transportation business or the warehouse business of the railway logistics park for the user has the following defects:

1) Because of excessive doping with manual intervention and subjective judgment, the degree of systemization, flow and intellectualization is not high;

2) When a user enters and exits the logistics park for check weighing, automatic unattended operation is not realized, full-time personnel are required to open paper pounds, and paperless and full-automatic management cannot be realized;

3) The dead weight of the cargo transportation means or containers (such as trucks, truck, containers and the like) is basically a rough estimated value or a historical weight detection value obtained according to different types, and is not the accurate dead weight information corresponding to each service;

4) The check weight values acquired in different service links are manually compared, so that mistakes are easy to occur;

5) When the problem that the user report is inconsistent with the actual check weight data exists, the user needs to perform subjective judgment and the execution standard is not uniform.

In view of the foregoing, there is a need for improved weight detection methods and systems to accommodate rapid development of logistics park industry and effectively improve logistics management efficiency.

Disclosure of Invention

The embodiment of the invention provides an intelligent weight checking method and system, which are used for overcoming the defects of low automation degree, poor accuracy and the like in the aspect of weight checking in a logistics park in the prior art.

In a first aspect, an embodiment of the present invention provides an intelligent weight detection method, which mainly includes: receiving a check weighing application of a user by using an order management subsystem, and generating a check weighing order; according to the check weighing order, acquiring first check weighing information of the checked object by using an entrance gate check subsystem; the intelligent weight detection subsystem is utilized to detect overweight of the detected object according to the first weight detection information; if the overweight detection is qualified, generating an electronic pound sheet of the detected object; generating a temporary input and output warehouse-in bill by utilizing a warehouse management subsystem according to the electronic pound bill; acquiring second weight detection information of the detected object by using a loading and unloading operation subsystem according to the temporary entry and exit list; utilizing an intelligent check weighing subsystem to perform one-time check weighing check on the check weighing information of the checked object according to the temporary access ticket and the second check weighing information; if the result of one check weight check is qualified, a formal warehouse-in and warehouse-out bill is generated by utilizing the warehouse management subsystem.

Optionally, after the formal ex-warehouse entry ticket is generated by using the warehouse management subsystem, the method further includes: acquiring third check weight information of the checked object by using a departure gate checking subsystem; the intelligent check weighing subsystem is utilized to carry out secondary check weighing verification on the check weighing information of the checked object according to the formal access warehouse entry list and the third check weighing information; and if the result of the secondary check weight check is qualified, the gate check subsystem gives the checked object to pass, and the intelligent check weight subsystem is utilized to update and archive the data of the order management subsystem.

Alternatively, if the overweight detection is not qualified, an overweight correction notification is sent to the user and the passing of the detected object is forbidden until the overweight detection is qualified after correction.

Optionally, if the result of one check weight check is not qualified, a notification of one check weight failure is sent to a user and a warehouse management subsystem, and the warehouse management subsystem is prohibited from generating the formal warehouse-in and warehouse-out bill.

Alternatively, if the result of the secondary check-weight check is not qualified, a secondary check-weight failure notification is sent to the user and the exit gate check subsystem, and the exit gate check subsystem is forbidden to give the checked object a release.

Optionally, if the check-up request of the user is a check-up request of a shipping service, the first check-up information is the total weight of the transport means, the loading container, and the loading/unloading object; the second weight information is the total weight of the loading container and the loading and unloading objects; the third checkweight information comprises the first checkweight information, the total weight of the transport and loading container and/or the transport weight.

Optionally, if the check-weight application of the user is a check-weight application of the pick-up service, the first check-weight information is the total weight of the transport means and the loading container; the second weight information is the total weight of the loading container and the loading and unloading objects; the third weight information includes the first weight information and a total weight of the transport, the loading container, and the load.

Optionally, the intelligent weight checking method provided by the embodiment of the invention is specifically an intelligent weight checking method of a railway logistics park.

In a second aspect, an embodiment of the present invention provides an intelligent weight detection system, which mainly includes: the system comprises an order management subsystem, an approach gate inspection subsystem, a warehouse management subsystem, a loading and unloading operation subsystem and an intelligent check weighing subsystem; the order management subsystem is used for receiving a check weighing application of a user and generating a check weighing order; the entrance gate inspection subsystem is used for acquiring first weight inspection information of an inspected object according to the weight inspection order; the intelligent weight detection subsystem is used for detecting overweight of the detected object according to the first weight detection information; if the overweight detection is qualified, generating an electronic pound sheet of the detected object; the warehouse management subsystem is used for generating a temporary warehouse-in/out bill according to the electronic pound bill; the loading and unloading operation subsystem is used for acquiring second check weight information of the checked object according to the temporary entry and exit list; the intelligent check weighing subsystem is also used for carrying out one-time check weighing check on the check weighing information of the checked object according to the temporary access ticket and the second check weighing information; if the result of one check weight check is qualified, a formal warehouse-in and warehouse-out bill is generated by utilizing the warehouse management subsystem.

In a third aspect, an embodiment of the present invention provides an electronic device, including a memory, a processor, and a computer program stored on the memory and executable on the processor, where the steps of the intelligent weight detection method according to any one of the first aspects are implemented when the processor executes the program.

In a fourth aspect, embodiments of the present invention provide a non-transitory computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the intelligent checkweigher method according to any of the first aspects.

The intelligent weighing method, namely the system, is systematic, flow-process, intelligent and safe, manages weighing information in the links of transportation production, storage service and the like of the existing logistics park, and solves the problems that the weighing information is inconsistent before and after the production link and the traditional paper weighing bill cannot realize informatization. By introducing the check weight verification method, the transportation risk caused by overweight can be effectively avoided, and the production efficiency of a logistics park is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of an intelligent weight detection method according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of another intelligent weight detection method according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an intelligent weight detection system according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of interrelationships among subsystems related to an intelligent weight detection system according to an embodiment of the present invention;

fig. 5 is a physical structure diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment of the invention provides an intelligent weight checking method suitable for a logistics park, as shown in fig. 1, which comprises the following steps:

step S1, receiving a check weighing application of a user by using an order management subsystem, and generating a check weighing order;

s2, acquiring first check weight information of a checked object by using an approach gate checking subsystem according to the check weight order;

s3, overweight detection is carried out on the detected object by utilizing the intelligent weight detection subsystem according to the first weight detection information; if the overweight detection is qualified, generating an electronic pound sheet of the detected object;

s4, generating a temporary warehouse-in/out bill by utilizing a warehouse management subsystem according to the electronic pound bill;

s5, acquiring second check weight information of the checked object by utilizing a loading and unloading operation subsystem according to the temporary entry and exit list;

s6, utilizing an intelligent check weighing subsystem to perform one-time check weighing check on the check weighing information of the checked object according to the temporary access ticket and the second check weighing information;

and S7, if the result of one-time check weight check is qualified, generating a formal warehouse-in and warehouse-out bill by utilizing the warehouse management subsystem.

Specifically, in the embodiment of the invention, the following subsystems which are preset at each check weighing process position of the logistics park are connected through the standard data interface so as to realize communication and data interaction and achieve the purposes of comprehensive judgment and verification of check weighing information. Wherein each subsystem mainly comprises: the system comprises an order management subsystem and an intelligent check weighing subsystem which are arranged in a management center, an entrance gate check subsystem which is arranged at an entrance of a logistics park, a warehouse management subsystem which is arranged in a warehouse department, a loading and unloading operation subsystem which is arranged in a loading and unloading department and the like. It should be noted that, the subsystem in this embodiment may properly select, according to the actual scale and the actual configuration of the logistics park, to connect the management system of each relevant department in the logistics park with the intelligent weight detection subsystem in a communication manner, so as to implement data interaction and sharing in the whole logistics park.

The order management subsystem is mainly used for generating a user check-in request to transact reservation approach and generating a check-in order according to an entrance check-in request of the user (comprising receiving report data of the user). The entrance gate inspection subsystem is mainly used for acquiring the entrance check weight information (first check weight information) of the inspected object and executing a release instruction or not.

The intelligent weight detection subsystem is used for judging whether the detected object exceeds the maximum weight limit, for example: comparing the first check weight information with a preset maximum check weight threshold value, and judging that the detected object is overweight if the first check weight information is larger than the maximum check weight threshold value, wherein the detected object is possibly damaged on loading equipment in the transportation process or infrastructure in a logistics park; and if the first check weight information is smaller than the maximum check weight threshold value, judging that the overweight detection result of the detected object is qualified. If the overweight detection result is qualified, an electronic pound sheet of the detected object can be generated.

When the overweight detection is performed on the detected object, the parameters such as the vehicle type, the box type, the goods and the like of the detected object can be comprehensively judged, so that the overweight detection result is more reasonable.

Optionally, before the electronic pound sheet is generated, the intelligent weight checking subsystem may also judge whether the weight of the checked object is consistent with the value submitted by the user. For example, the user report value is recorded with 48T for the first check weighing information, but 50T for the first check weighing information actually detected. In this embodiment, the difference between the actually detected weight and the user report value may be obtained, and whether the difference is within the error allowable range may be determined, where if the error in the above embodiment is 2T and the maximum allowable error is 0.5T, it is determined that the detected object weight is inconsistent with the user report value, and at this time, a detection failure instruction may be sent to the entrance gate detection subsystem to prohibit the passage of the detected object.

Further, after the electronic pound bill of the detected object is generated, the warehouse management subsystem performs warehouse-in and warehouse-out management according to the electronic pound bill, at this time, the user report value and the electronic pound bill information can be checked again, if the checking is passed, a temporary warehouse-in and warehouse-out bill is generated for the detected object, and the temporary warehouse-in and warehouse-out bill can be an electronic certificate, and the electronic certificate carries all the previous detection data of the detected object and the user report value.

Further, when the object to be inspected acquires the temporary entry/exit bill, the object to be inspected is entered into the loading/unloading department to carry out loading/unloading operation of the carried object. And weighing the loaded and unloaded detected object again after loading and unloading are completed, and uploading second weighing information obtained after weighing to a loading and unloading operation subsystem.

The loading and unloading operation subsystem acquires the second check weight information, collates the information, and then sends the information to the intelligent check weight subsystem, and the intelligent check weight subsystem performs one-time check weight verification on the check weight information of the checked object. Specifically, the one-time proof check includes: the intelligent weight detecting subsystem can be responsible for judging whether the weight of the detected object is consistent with the value reported by the user; it is also possible to accurately verify whether the error of the weight detection information of each service flow before is within the allowable range, for example, whether the first weight detection information is accurate or whether the result of the overweight detection is accurate, etc.

Further, if the result of one check weight check is qualified, the warehouse management subsystem issues a formal entry and exit bill for the check weight of the checked object at the time, which indicates that the whole check weight result is qualified.

According to the intelligent weight checking method provided by the embodiment of the invention, the weight checking information in the links of transportation production, storage service and the like of the existing logistics park is managed, so that the problems that the weight checking information is inconsistent before and after the production link and the traditional paper weight checking bill cannot realize informatization are solved. By introducing the check weight verification method, the transportation risk caused by overweight can be effectively avoided, the systemization, flow, intellectualization and safety management level of the logistics park is improved, and the production efficiency is also improved.

Based on the content of the foregoing embodiment, as shown in fig. 2, as an alternative embodiment, after generating the formal ex-warehouse entry bill by using the warehouse management subsystem, the method may further include:

acquiring third check weight information of the checked object by using a departure gate checking subsystem; utilizing an intelligent check weighing subsystem to carry out secondary check weighing on the check weighing information of the checked object according to the formal access ticket and the third check weighing information; and if the result of the secondary check weighing is qualified, the exit check subsystem gives the checked object to pass, and the intelligent check weighing subsystem is utilized to update and archive the data of the order management subsystem.

Specifically, in this embodiment, the user first makes a check-up request to the order management subsystem and handles the reservation approach and can obtain the check-up order at the same time. After reservation queuing, first check weight information of a checked object (including a car, a box, a cargo and the like) is acquired through the entrance gate check subsystem, and the first check weight information is pushed to the intelligent check weight subsystem. And the intelligent weight detection subsystem comprehensively judges whether the detected object exceeds the weight limit through parameters such as a vehicle type, a box type, a goods class and the like, if the detected object does not exceed the weight limit, the electronic weight list corresponding to the detected object is released and generated, and meanwhile the electronic weight list is pushed to the warehouse management subsystem. And the warehouse management subsystem generates temporary in-out warehouse entry information (namely temporary out-of-warehouse bill or warehouse entry bill) of the detected object according to the electronic pound bill information and pushes the temporary in-out warehouse entry information to the loading and unloading operation subsystem. And dynamically acquiring second check weight information of the loading and unloading objects or the loading containers by the loading and unloading operation subsystem, and pushing the check weight information to the intelligent check weight subsystem in real time for check weight verification. And finally, generating formal warehouse entry and exit information (namely a formal warehouse entry bill or a warehouse entry bill) by the warehouse management subsystem according to the check-in and check-out result, and pushing the formal warehouse entry and exit information to the ex-office gate check subsystem. And then the third check weight information of the checked object (including empty car dead weight, total weight of the car and the container, total weight of the wagon box and the like) is pushed to the intelligent check weight subsystem by the departure gate check subsystem for secondary check weight verification, and if the check is passed, the check is released. And finally, the intelligent check weighing subsystem updates the order management subsystem according to the judgment result to finish the check weighing closed loop processing flow and verification.

On the basis of the previous embodiment, the embodiment of the invention realizes the secondary check-up of the checked object by adding the ex-situ gate check subsystem, more perfects the whole check-up flow, improves and standardizes the management of check-up information in links such as transportation production and storage service of a logistics park, and compensates for possible management loopholes of the checked object in the process from a warehouse department to ex-situ. The final check weighing result of the intelligent check weighing subsystem is updated and archived for the initial order of the user in the order management subsystem, so that the aim of closed-loop management of check weighing flows is fulfilled.

Based on the foregoing embodiments, as an alternative embodiment, if the overweight detection is not acceptable, an overweight correction notification is sent to the user and the passing of the detected object is prohibited until the overweight detection is acceptable after correction.

Specifically, when the intelligent weight detection subsystem detects the overweight of the detected object according to the first weight detection information, if the detection result is qualified, an electronic pound sheet is generated; if the inspection result is not qualified, the passing of the inspected object is forbidden, and meanwhile, the inspected object is instructed to carry out rectification until the first inspection information acquired after the re-inspection is carried out through the entrance gate inspection subsystem after the rectification is carried out meets the inspection result.

It should be noted that, after the user performs the modification and satisfies the check weighing detection result, the first check weighing information acquired at this time needs to be uploaded to the order management subsystem to implement updating of the check weighing order.

Based on the content of the above embodiment, as an alternative embodiment, if the result of one check-up is not qualified, a notification of one check-up failure is sent to the user and the warehouse management subsystem, and the warehouse management subsystem is prohibited from generating a formal warehouse-out and warehouse-in order.

Specifically, in the intelligent check weighing subsystem, after the check weighing information of the checked object is checked once according to the temporary warehouse-in and warehouse-out list and the second check weighing information, if the result is qualified, the warehouse-in and warehouse-out management subsystem is instructed to generate a formal warehouse-out and warehouse-in list; if the result is not qualified, the problem exists between the information of the original check weight order of the checked object and the actual situation. At the moment, a check weight unqualified notification can be sent to the warehouse management subsystem so as to prohibit the warehouse management subsystem from generating a formal warehouse-in and warehouse-out bill. Meanwhile, the check weight information can be dynamically pushed to the user binding terminal, so that a user can dynamically grasp the latest handling progress, and meanwhile, the problem or dispute caused by inconsistent check weight values of the two parties can be effectively eliminated through rectification.

According to the embodiment of the invention, the weight checking accuracy is effectively improved by checking the checked object once, and meanwhile, the work efficiency is effectively improved by sending the weight checking result to the user and the warehouse management subsystem in real time, so that the problem or dispute caused by inconsistent weight checking values of the two parties is avoided.

Based on the content of the above embodiment, as an alternative embodiment, if the result of the secondary check-up is not qualified, a secondary check-up failure notification is sent to the user and the exit gate inspection subsystem, and the exit gate inspection subsystem is prohibited from giving the checked object to pass.

Specifically, in the embodiment, the secondary check weighing of the checked object is realized by additionally arranging the exit gate checking subsystem, and the exit gate is tightly closed, so that the integrity and the precision of the check weighing are further improved, and the effect of the check weighing is ensured.

Based on the foregoing embodiments, as an optional embodiment, if the check-up request of the user is a check-up request of a shipping service, the first check-up information is a total weight of the transport means, the loading container, and the loading object; the second weight detection information is the total weight of the loading container and the loading and unloading objects; the third checkweight information comprises the first checkweight information, a total weight of the transport and the loading container or a transport weight. If the check weighing application of the user is a check weighing application of a goods taking service, the first check weighing information is the total weight of the transport means and the loading container; the second weight detection information is the total weight of the loading container and the loading and unloading objects; the third weight information includes the first weight information and a total weight of the transport, the loading container, and the load.

Because the logistics park is mainly used for providing logistics service for users, the intelligent weight checking method provided by the embodiment of the invention not only provides weight checking for the users when receiving the consignment service of the users, but also provides weight checking service for the users when carrying out the goods taking service from the logistics park. In the embodiment of the present invention, the limitation of the first check-up information, the second check-up information and the third check-up information may be set according to the functional configuration of the logistics park, the transportation condition of the checked object and the actual condition of the transportation object entering and exiting the venue, so the limitation of the first check-up information, the second check-up information and the third check-up information is not considered as the limitation of the protection scope of the embodiment.

Based on the foregoing embodiment, as an optional embodiment, the intelligent weight checking method provided by the embodiment of the present invention may be specifically an intelligent weight checking method suitable for a railway logistics park.

The embodiment of the invention provides an intelligent weight detection system, as shown in fig. 3, mainly comprising: an order management subsystem 1, an entrance gate inspection subsystem 2, a warehouse management subsystem 3, a loading and unloading operation subsystem 4 and an intelligent check weighing subsystem 5; the order management subsystem 1 is used for receiving a check weighing application of a user and generating a check weighing order; the entrance gate inspection subsystem 2 is used for acquiring first inspection weight information of an inspected object according to the inspection weight order; the intelligent weight detection subsystem 5 is used for detecting overweight of the detected object according to the first weight detection information; if the overweight detection is qualified, generating an electronic pound sheet of the detected object; the warehouse management subsystem 3 is used for generating a temporary warehouse-in/out bill according to the electronic bill; the loading and unloading operation subsystem 4 is used for acquiring second check weight information of the checked object according to the temporary entry and exit list; the intelligent check weighing subsystem 5 is also used for carrying out one-time check weighing check on the check weighing information of the checked object according to the temporary access ticket and the second check weighing information; if the result of one check weight check is qualified, a formal warehouse-in and warehouse-out bill is generated by utilizing the warehouse management subsystem 3.

Further, as shown in fig. 4, the intelligent weight detection system provided by the embodiment of the invention may further include a gate detection subsystem for acquiring third weight detection information of the detected object. Meanwhile, the intelligent check weighing subsystem 3 is utilized to carry out secondary check weighing check on the check weighing information of the checked object according to the formal access ticket and the third check weighing information; and if the result of the secondary check weight check is qualified, the exit check subsystem gives the checked object to pass, and the intelligent check weight subsystem 3 is utilized to update and archive the data of the order management subsystem 1.

Specifically, in the embodiment of the present invention, the intelligent weight detecting subsystem 3 is used as a data processing center of the whole system, and is responsible for collecting weight detecting data of each subsystem, and performing, for example, overweight detection, data accuracy evaluation detection, data consistency evaluation detection and the like on data in different weight detecting stages, so as to determine whether the weight of the detected object exceeds the maximum weight, whether the weight of the detected object is consistent with the user reporting value, and accurately check whether the weight detecting information error of each service flow is within the allowable range.

It should be noted that, when the intelligent weight detecting system provided by the embodiment of the present invention is specifically operated, the intelligent weight detecting method described in any one of the above embodiments may be executed, and a detailed description is omitted.

The intelligent weight checking system provided by the embodiment of the invention manages weight checking information in the links of transportation production, storage service and the like of the conventional logistics park, and solves the problems that the weight checking information is inconsistent before and after the production link and the traditional paper weight checking bill can not realize informatization. By introducing the check weight verification method, the transportation risk caused by overweight can be effectively avoided, and the production efficiency of a logistics park is improved.

Fig. 5 illustrates a physical schematic diagram of an electronic device, as shown in fig. 5, which may include: processor 310, communication interface (Communications Interface) 320, memory 330 and communication bus 340, wherein processor 310, communication interface 320, memory 330 accomplish communication with each other through communication bus 340. The processor 310 may call logic instructions in the memory 330 to perform the following method: receiving a check weighing application of a user by using an order management subsystem, and generating a check weighing order; according to the check weighing order, acquiring first check weighing information of the checked object by using an entrance gate check subsystem; the intelligent weight detection subsystem is utilized to detect overweight of the detected object according to the first weight detection information; if the overweight detection is qualified, generating an electronic pound sheet of the detected object; generating a temporary input and output warehouse-in bill by utilizing a warehouse management subsystem according to the electronic pound bill; acquiring second weight detection information of the detected object by using a loading and unloading operation subsystem according to the temporary entry and exit list; utilizing an intelligent check weighing subsystem to perform one-time check weighing check on the check weighing information of the checked object according to the temporary access ticket and the second check weighing information; if the result of one check weight check is qualified, a formal warehouse-in and warehouse-out bill is generated by utilizing the warehouse management subsystem.

Further, the logic instructions in the memory 330 described above may be implemented in the form of software functional units and stored in a computer-readable storage medium when sold or used as separate data sets. Based on this understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art or in the form of a software data set stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

In another aspect, embodiments of the present invention further provide a non-transitory computer readable storage medium having stored thereon a computer program, which when executed by a processor is implemented to perform the weight checking method provided in the above embodiments, for example, including: receiving a check weighing application of a user by using an order management subsystem, and generating a check weighing order; according to the check weighing order, acquiring first check weighing information of the checked object by using an entrance gate check subsystem; the intelligent weight detection subsystem is utilized to detect overweight of the detected object according to the first weight detection information; if the overweight detection is qualified, generating an electronic pound sheet of the detected object; generating a temporary input and output warehouse-in bill by utilizing a warehouse management subsystem according to the electronic pound bill; acquiring second weight detection information of the detected object by using a loading and unloading operation subsystem according to the temporary entry and exit list; utilizing an intelligent check weighing subsystem to perform one-time check weighing check on the check weighing information of the checked object according to the temporary access ticket and the second check weighing information; if the result of one check weight check is qualified, a formal warehouse-in and warehouse-out bill is generated by utilizing the warehouse management subsystem.

The apparatus embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course may be implemented by means of hardware. Based on this understanding, the foregoing technical solution may be embodied essentially or in some part contributing to the prior art in the form of a software data set, which may be stored in a computer readable storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., including several instructions to cause a computer device (which may be a personal computer, a server, or a network device, etc.) to perform the method described in the various embodiments or some parts of the embodiments.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (6)

1. An intelligent weight detection method is characterized by comprising the following steps:

receiving a check weighing application of a user by using an order management subsystem, and generating a check weighing order;

according to the check weighing order, acquiring first check weighing information of the checked object by using an approach gate checking subsystem;

the intelligent weight detecting subsystem is utilized to detect overweight of the detected object according to the first weight detecting information; if the overweight detection is qualified, generating an electronic pound sheet of the detected object;

generating a temporary warehouse-in/out bill by utilizing a warehouse management subsystem according to the electronic bill;

acquiring second check weight information of the checked object by utilizing a loading and unloading operation subsystem according to the temporary entry and exit list;

the intelligent check weighing subsystem is utilized to perform one-time check weighing check on the check weighing information of the checked object according to the temporary access ticket and the second check weighing information;

if the result of the one-time check weight check is qualified, a formal warehouse-in and warehouse-out bill is generated by utilizing the warehouse management subsystem;

the intelligent weight checking method specifically comprises an intelligent weight checking method of a railway logistics park;

before the electronic menu is generated, acquiring a difference value between the actual detection weight of the detected object and a user-reported numerical value, releasing the detected object when the difference value is within an error allowable range, and sending a detection failure instruction to the entrance gate detection subsystem to prohibit the detected object from passing when the difference value is outside the error allowable range;

after the formal warehouse-in and warehouse-out bill is generated by the warehouse management subsystem, the method further comprises the following steps:

acquiring third check weight information of the checked object by using a departure gate checking subsystem;

utilizing the intelligent check weighing subsystem to perform secondary check weighing on the check weighing information of the checked object according to the formal access ticket and the third check weighing information;

if the result of the secondary check weighing is qualified, the exit gate check subsystem gives the checked object to pass, and the intelligent check weighing subsystem is utilized to update and file data of the order management subsystem;

if the result of the secondary check weight check is not qualified, sending a secondary check weight unqualified notification to the user and the exit gate check subsystem, and prohibiting the exit gate check subsystem from giving the checked object to pass;

if the check-up application of the user is a check-up application of a consignment business, the first check-up information is the total weight of the transport means, the loading container and the loading and unloading objects; the second weight detection information is the total weight of the loading container and the loading and unloading objects; the third checkweight information comprises the first checkweight information, a total weight of the transport and loading container and/or a transport weight;

if the check weighing application of the user is a check weighing application of a goods taking service, the first check weighing information is the total weight of the transport means and the loading container; the second weight detection information is the total weight of the loading container and the loading and unloading objects; the third weight information includes the first weight information and a total weight of the transport, the loading container, and the load.

2. The intelligent weight detection method according to claim 1, wherein if the overweight detection is not acceptable, an overweight rectification notification is sent to the user and the passing of the detected object is prohibited until the overweight detection is acceptable after rectification.

3. The intelligent weight checking method according to claim 1, wherein if the result of the one-time weight checking is not qualified, a notification of one-time weight checking failure is sent to the user and the warehouse management subsystem, and the warehouse management subsystem is prohibited from generating the formal entry and exit bill.

4. An intelligent checkweight system, comprising: the system comprises an order management subsystem, an entrance gate inspection subsystem, an exit gate inspection subsystem, a warehouse management subsystem, a loading and unloading operation subsystem and an intelligent check weighing subsystem;

the order management subsystem is used for receiving a check weighing application of a user and generating a check weighing order;

the entrance gate inspection subsystem is used for acquiring first inspection weight information of an inspected object according to the inspection weight order;

the intelligent weight detection subsystem is used for detecting overweight of the detected object according to the first weight detection information; if the overweight detection is qualified, generating an electronic pound sheet of the detected object;

the warehouse management subsystem is used for generating a temporary warehouse-in/out bill according to the electronic pound bill;

the loading and unloading operation subsystem is used for acquiring second weight detection information of the detected object according to the temporary entry and exit list;

the intelligent check weighing subsystem is also used for carrying out one-time check weighing check on the check weighing information of the checked object according to the temporary access ticket and the second check weighing information; if the result of the one-time check weight check is qualified, a formal warehouse-in and warehouse-out bill is generated by utilizing the warehouse management subsystem;

the intelligent weight checking system is specifically an intelligent weight checking system of a railway logistics park;

the intelligent check weighing subsystem is also used for acquiring a difference value between the actual detection weight of the detected object and a user report numerical value before the electronic pound bill is generated, releasing the detected object when the difference value is within an error allowable range, and sending a detection disqualification instruction to the entrance gate detection subsystem to prohibit the detected object from passing when the difference value is out of the error allowable range;

the exit gate inspection subsystem is further used for acquiring third weight inspection information of the inspected object;

the intelligent check weighing subsystem is also used for carrying out secondary check weighing on the check weighing information of the checked object according to the formal access ticket and the third check weighing information;

if the result of the secondary check weighing is qualified, the exit gate check subsystem gives the checked object to pass, and the intelligent check weighing subsystem updates and files the data of the order management subsystem;

if the result of the secondary check weight check is not qualified, sending a secondary check weight unqualified notification to the user and the exit gate check subsystem, and prohibiting the exit gate check subsystem from giving the checked object to pass;

if the check-up application of the user is a check-up application of a consignment business, the first check-up information is the total weight of the transport means, the loading container and the loading and unloading objects; the second weight detection information is the total weight of the loading container and the loading and unloading objects; the third checkweight information comprises the first checkweight information, a total weight of the transport and loading container and/or a transport weight;

if the check weighing application of the user is a check weighing application of a goods taking service, the first check weighing information is the total weight of the transport means and the loading container; the second weight detection information is the total weight of the loading container and the loading and unloading objects; the third weight information includes the first weight information and a total weight of the transport, the loading container, and the load.

5. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the steps of the intelligent weight detection method of any one of claims 1 to 3 when the program is executed by the processor.

6. A non-transitory computer readable storage medium having stored thereon a computer program, which when executed by a processor, implements the steps of the intelligent weight detection method according to any of claims 1 to 3.