CN111401704A - Method and device for generating charging list - Google Patents

Abstract

The invention provides a method and a device for generating a charging list, wherein the method comprises the following steps: responding to a furnace entering list generation instruction, calling a preset production plan scheduling APS interface, and obtaining production plan information; determining the type of a coil to be fed into the furnace currently based on the production plan information; acquiring coil identification of each coil of the coil type; and selecting a plurality of coil identifiers according to the sequence of the sequencing priorities of the coil identifiers from high to low, recording the coil identifiers into a preset furnace entering list template of the curing furnace in an idle state, and generating a furnace entering list of the curing furnace, wherein the sequencing priorities are determined according to the delivery time of the coil identifiers, the furnace matching mode of the coils, the size of a pouring chassis and the pouring amount. By applying the method provided by the invention, each coil with matched specification can be selected to enter the furnace based on the sorting priority of each coil, and the assembly efficiency of the coil is improved.

Description

Method and device for generating charging list

Technical Field

The invention relates to the field of transformer manufacturing, in particular to a method and a device for generating a charging list.

Background

With the development of science and technology, various electric devices are widely applied to various fields, the use of inductance coil products is more and more common, insulation treatment is often required in the production of the inductance coil products, and for large-sized coils, insulation treatment is usually required to be carried out on the coils in a manner that an insulation material is poured on the inductance coils through a curing oven.

When using the curing oven to pouring insulating material to inductance coil, can send into a plurality of coils simultaneously in the curing oven usually to coil that the pouring is accomplished assembles, among the prior art, when selecting the coil at every turn and going into the stove, often be difficult to select the suitable coil of specification to go into the stove, make the coil pouring accomplish the back, can not in time acquire and assemble rather than the coil that pairs, cause the assembly efficiency of coil to hang down.

Disclosure of Invention

The invention aims to solve the technical problem of providing a charging list generation method, which can select coils with proper specifications to be charged and improve the assembly efficiency of the coils.

The invention also provides a charging list generating device which is used for ensuring the realization and the application of the method in practice.

A furnace entry list generation method comprises the following steps:

responding to a furnace entering list generation instruction, calling a preset production plan scheduling APS interface, and obtaining production plan information;

determining the type of a coil to be fed into the furnace currently based on the production plan information;

acquiring coil identification of each coil of the coil type;

and selecting a plurality of coil identifiers according to the sequence of the sequencing priorities of the coil identifiers from high to low, recording the coil identifiers into a preset furnace entering list template of the curing furnace in an idle state, and generating a furnace entering list of the curing furnace, wherein the sequencing priorities are determined according to the delivery time of the coil identifiers, the furnace matching mode of the coils, the size of a pouring chassis and the pouring amount.

The method optionally, wherein the determining the type of the coil currently to be charged into the furnace based on the production plan information includes:

obtaining each order to be completed contained in the product plan information;

determining a target to-be-completed order based on the delivery time of each to-be-completed order;

and analyzing the target order to be completed to obtain the type of the coil to be charged currently.

Optionally, the method determines a priority ranking process according to the delivery time of the coil identifier, the coil batching method, the casting chassis specification and the casting quantity, and includes:

calling a preset product life cycle P L M interface to obtain description information of the coil identification of each coil of the coil type, wherein the description information comprises the coil proportioning mode, the pouring chassis size and the pouring amount of the coil identification to which the description information belongs;

obtaining lead times of coil identifications of respective coils of the coil type based on the production schedule information;

and determining the sequencing priority of each coil identifier according to the delivery time, the coil furnace matching mode, the casting chassis size and the casting amount of each coil identifier.

Optionally, in the method, selecting a plurality of coil identifiers to record in a preset oven entry sheet template of a curing oven according to the sequence of the sequence priorities of the coil identifiers from top to bottom to generate an oven entry sheet of the curing oven includes:

acquiring a preset furnace entering single template of the curing furnace in an idle state;

sequentially judging whether each coil identification meets the recording condition of the furnace entry single template or not according to the sequence of the sequencing priority of each coil identification from high to low, and recording the coil identification meeting the recording condition into the furnace entry single template to obtain a furnace entry single of the curing furnace;

wherein, the process of judging whether each coil identification meets the recording condition of the furnace entering single template comprises the following steps:

judging whether the total pouring chassis size corresponding to the coil identifier is smaller than a preset pouring chassis threshold value or not, wherein the total pouring chassis size corresponding to the coil identifier is the sum of the pouring chassis size of the coil identifier and the pouring chassis size of the coil identifier which is currently recorded to the charging single template;

judging whether the total pouring quantity corresponding to the coil identification is smaller than a preset pouring quantity threshold value or not, wherein the total pouring quantity of the coil identification is the sum of the pouring quantity of the coil identification and the pouring quantity of the coil identification which is recorded to the furnace entering single template currently;

and if the size of the total pouring chassis is smaller than the pouring chassis threshold value and the total pouring amount is smaller than the pouring amount threshold value, determining that the coil identification meets the recording condition.

Optionally, the method further includes, after generating the furnace entering list:

and sending the furnace entering list to a coil sorting system, so that the coil sorting system sorts the coils according to the furnace entering list.

An incoming sheet generation apparatus comprising:

the calling unit is used for calling a preset production plan scheduling APS interface to obtain production plan information when receiving a furnace entering list generation instruction;

the determining unit is used for determining the type of the coil to be charged into the furnace currently based on the production plan information;

an obtaining unit, configured to obtain a coil identifier of each coil of the coil type;

and the generating unit is used for selecting a plurality of coil identifiers to be recorded into a preset furnace entering list template of the curing furnace in an idle state according to the sequence of the sequence priorities of the coil identifiers from high to low so as to generate a furnace entering list of the curing furnace, wherein the sequence priorities are determined according to the delivery time of the coil identifiers, the coil furnace matching mode, the size of a pouring chassis and the pouring amount.

The above apparatus, optionally, the determining unit includes:

the first obtaining subunit is used for obtaining each order to be completed contained in the product plan information;

the determining subunit is used for determining target orders to be completed based on the delivery time of each order to be completed;

and the analysis subunit is used for analyzing the target order to be completed to obtain the type of the coil to be charged currently.

The above apparatus, optionally, includes a generating unit for determining a priority according to a delivery time of the coil identifier, a coil batching method, a casting chassis specification, and a casting amount, and includes:

the device comprises a calling subunit, a control subunit and a control subunit, wherein the calling subunit is used for calling a preset product life cycle P L M interface to obtain description information of coil identifiers of coils of coil types, and the description information comprises a coil furnace matching mode, a pouring chassis size and a pouring amount of the coil identifiers to which the description information belongs;

a first execution subunit configured to acquire lead times of coil identifications of respective coils of the coil type based on the production schedule information;

and the second execution subunit is used for determining the sequencing priority of each coil identifier according to the delivery time of each coil identifier, the coil furnace matching mode, the casting chassis size and the casting amount.

The above apparatus, optionally, the generating unit includes:

the second acquisition subunit is used for acquiring a preset furnace entering single template of the curing furnace in an idle state;

the judging subunit is used for sequentially judging whether each coil identifier meets the recording condition of the furnace entering single template according to the sequence of the sequence priority of each coil identifier from high to low, and recording the coil identifiers meeting the recording condition into the furnace entering single template to obtain a furnace entering single of the curing furnace;

wherein, the process of judging whether each coil identification meets the recording condition of the furnace entering single template comprises the following steps:

judging whether the total pouring chassis size corresponding to the coil identifier is smaller than a preset pouring chassis threshold value or not, wherein the total pouring chassis size corresponding to the coil identifier is the sum of the pouring chassis size of the coil identifier and the pouring chassis size of the coil identifier which is currently recorded to the charging single template;

judging whether the total pouring quantity corresponding to the coil identification is smaller than a preset pouring quantity threshold value or not, wherein the total pouring quantity of the coil identification is the sum of the pouring quantity of the coil identification and the pouring quantity of the coil identification which is recorded to the furnace entering single template currently;

and if the size of the total pouring chassis is smaller than the pouring chassis threshold value and the total pouring amount is smaller than the pouring amount threshold value, determining that the coil identification meets the recording condition.

The above apparatus, optionally, further comprises:

and the sending unit is used for sending the furnace entering list to a coil sorting system, so that the coil sorting system can sort the coils according to the furnace entering list.

Compared with the prior art, the invention has the following advantages:

the invention provides a furnace entering list generating method and device, which respond to a furnace entering list generating instruction and call a preset production plan scheduling APS interface to obtain production plan information; determining the type of a coil to be fed into the furnace currently based on the production plan information; acquiring coil identification of each coil of the coil type; and selecting a plurality of coil identifiers according to the sequence of the sequencing priorities of the coil identifiers from high to low, recording the coil identifiers into a preset furnace entering list template of the curing furnace in an idle state, and generating a furnace entering list of the curing furnace, wherein the sequencing priorities are determined according to the delivery time of the coil identifiers, the furnace matching mode of the coils, the size of a pouring chassis and the pouring amount. By applying the method provided by the invention, the coil identifiers entering the furnace are selected according to the sequencing priority of each coil identifier, so that the coil with a proper specification can be selected to enter the furnace each time the coil enters the furnace, the coils can be assembled by utilizing the mutually matched coils after the casting of the coils is finished, and the assembly efficiency of the coils is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a flowchart of a method for generating a charging list according to the present invention;

FIG. 2 is a flow chart of a process provided by the present invention for determining the type of coil currently to be charged into the furnace;

FIG. 3 is a flow chart of a process for determining a ranking priority provided by the present invention;

FIG. 4 is a schematic structural diagram of a furnace entry list generating device according to the present invention;

fig. 5 is a schematic structural diagram of an electronic device provided in the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention is operational with numerous general purpose or special purpose computing device environments or configurations. For example: personal computers, server computers, hand-held or portable devices, tablet-type devices, multi-processor apparatus, distributed computing environments that include any of the above devices or equipment, and the like.

The embodiment of the invention provides a method for generating a furnace entering list, which can be applied to various system platforms, wherein an execution main body of the method can be a computer terminal or a processor of various mobile devices, and a flow chart of the method is shown in fig. 1 and specifically comprises the following steps:

s101: responding to a furnace entering list generation instruction, calling a preset production plan scheduling APS interface, and obtaining production plan information;

in the method provided by the embodiment of the invention, the furnace entering list generating instruction can be sent by a user or can be a preset timing trigger instruction.

Specifically, an Advanced Planning and Scheduling (APS) interface may be invoked to obtain the production Scheduling information in the APS component, where the production Scheduling information includes the production Scheduling of each order, such as the lead time and the product type of the order.

S102: and determining the type of the coil to be fed into the furnace currently based on the production plan information.

In the method provided by the embodiment of the invention, the coil type to be fed into the furnace at present can be obtained by analyzing the production plan information, and specifically, the coil type to be fed into the furnace can be determined according to the sequence of the delivery time of the coils of each coil type in the production plan information.

And acquiring the required number of the coils corresponding to the coil type.

S103: coil identifications of the respective coils of the coil type are obtained.

In the method provided by the embodiment of the invention, the coil identification of the coil of each coil type is recorded in the established configuration table, and the coil identification of each coil of the coil type to be charged currently can be obtained by traversing the configuration table.

The coil identifier may be an ID or an identification code of the coil to which the coil identifier belongs.

Optionally, the coil identification of each coil is different.

S104: and selecting a plurality of coil identifiers according to the sequence of the sequencing priorities of the coil identifiers from high to low, recording the coil identifiers into a preset furnace entering list template of the curing furnace in an idle state, and generating a furnace entering list of the curing furnace, wherein the sequencing priorities are determined according to the delivery time of the coil identifiers, the furnace matching mode of the coils, the size of a pouring chassis and the pouring amount.

In the method provided by the embodiment of the invention, the sequencing priority of each coil identifier is predetermined, and the sequencing priority of each coil identifier can be determined according to the corresponding delivery time, coil furnace distribution mode, pouring chassis size of the pouring chassis matched with the coil identifier and pouring amount in the production schedule information.

Specifically, according to the sequence priority of each coil identifier from high to low, the required number of coil identifiers are selected and recorded into a preset furnace entry sheet template of at least one curing furnace in an idle state, so as to generate at least one furnace entry sheet of the curing furnace.

Wherein the required number is the required number of the coil type currently to be charged into the furnace, and the required number can be acquired in the production plan information.

It should be noted that the number of the furnace entering sheets may be one or more, and may be specifically determined by the required number of the coil identifications, the size of the casting chassis of each coil identification, and the casting amount of each coil identification.

Specifically, the furnace entering list records each coil identification and coordinate information of each coil identification on the casting and curing trolley corresponding to the furnace entering list.

The invention provides a method for generating a charging list, which comprises the following steps: responding to a furnace entering list generation instruction, calling a preset production plan scheduling APS interface, and obtaining production plan information; determining the type of a coil to be fed into the furnace currently based on the production plan information; acquiring coil identification of each coil of the coil type; and selecting a plurality of coil identifiers according to the sequence of the sequencing priorities of the coil identifiers from high to low, recording the coil identifiers into a preset furnace entering list template of the curing furnace in an idle state, and generating a furnace entering list of the curing furnace, wherein the sequencing priorities are determined according to the delivery time of the coil identifiers, the furnace matching mode of the coils, the size of a pouring chassis and the pouring amount. By applying the method provided by the invention, the coil identifiers entering the furnace are selected according to the sequencing priority of each coil identifier, so that the coil with a proper specification can be selected to enter the furnace each time the coil enters the furnace, the coils can be assembled by utilizing the mutually matched coils after the casting of the coils is finished, and the assembly efficiency of the coils is improved.

In the method provided in the embodiment of the present invention, based on the implementation process, specifically, the determining, based on the production plan information, a type of a coil currently to be charged into the furnace specifically includes, as shown in fig. 2:

s201: and obtaining each order to be completed contained in the product plan information.

In the method provided by the embodiment of the invention, the product planning information contains each order information, and the current order to be completed and the delivery time of each order to be completed are acquired in the product planning information.

S202: determining a target to-be-completed order based on the delivery time of each to-be-completed order;

in the method provided by the embodiment of the invention, the sequence of the delivery time of each order to be completed is determined, and the order to be completed corresponding to the delivery time closest to the current time is determined as the target order to be completed.

S203: and analyzing the target order to be completed to obtain the type of the coil to be charged currently.

In the method provided by the embodiment of the present invention, the type of the coil currently to be charged into the furnace is obtained in the preset field of the target order to be completed by analyzing the target order to be completed, and specifically, the required number of the coil currently to be charged into the furnace can also be obtained in the target order to be completed.

In the method provided in the embodiment of the present invention, based on the above implementation process, specifically, the process of determining the priority according to the delivery time of the coil identifier, the coil batching method, the specification of the pouring chassis, and the pouring amount specifically includes, as shown in fig. 3:

s301, calling a preset product life cycle P L M interface to obtain description information of coil identification of each coil of the coil type, wherein the description information comprises a coil furnace matching mode, a pouring chassis size and a pouring amount of the coil identification of the coil type.

In the method provided by the embodiment of the invention, the type of the coil is determined by judging whether the coil is filled, the type of the color paste, the execution standard and the like, specifically, the filling mode of the coil comprises filling and non-filling, and the execution standard comprises domestic execution standard and foreign execution standard.

In the method provided by the embodiment of the invention, description information of the coil identifier of each coil in the P L M component, specifically, size information of the coil corresponding to the coil identifier, such as height and section radius of the coil, and the size of the pouring chassis adapted to the size information of the coil, can be acquired by calling a preset Product life cycle Management (P L M) interface, wherein each coil corresponds to one pouring chassis, and a user of the pouring chassis places the coil.

The furnace is joined in marriage to this coil of every coil sign has two kinds, join in marriage the stove for high-pressure coil and join in marriage the stove with the low pressure coil respectively, wherein, to same batch income stove list, the coil sign that adopts the coil that the stove was joined in marriage to the high-pressure coil mode and the coil sign that adopts the low pressure coil to join in marriage the stove mode will keep unanimous, the coil sign of the coil of same type divide into two kinds, including high-pressure coil sign and low pressure coil sign, every high-pressure coil sign all exists rather than assorted low pressure coil sign, the stove is joined in marriage for high-pressure coil to the stove mode of joining in marriage of high-pressure coil sign, the stove is joined in marriage for the low pressure coil to.

It should be noted that the casting amount of each coil mark is preset to represent the amount of the casting material required when the coil to which the coil mark belongs enters the furnace.

S302: the lead time of the coil identification of each coil of the coil type is acquired based on the production schedule information.

In the method provided by the embodiment of the present invention, the delivery time of each coil identifier is obtained by analyzing the production scheduling information, and the delivery time is the delivery time of the order to which the coil identifier belongs.

S303: and determining the sequencing priority of each coil identifier according to the delivery time of each coil identifier, the coil furnace distribution mode, the casting chassis size and the casting quantity.

In the method provided by the embodiment of the present invention, one way of determining the priority of each coil identifier may be: sequencing the coil identifications according to the delivery time sequence of the coil identifications, dividing the coil identifications with the same delivery time according to the coil distribution mode of the coil identifications, and ensuring that the number of the high-voltage coil identifications and the number of the low-voltage coil identifications are uniformly distributed; and finally, sequencing the coil identifications with the same size of the pouring base plates according to the sequence of the pouring amount from large to small.

Another way to determine the ordering priority of each coil identification may be: setting corresponding sequencing weight parameters for delivery time, coil furnace distribution mode, casting chassis size and casting amount in advance; for each coil identification, calculating the delivery time, the coil furnace distribution mode, the pouring chassis size and the pouring amount of the coil identification and each sequencing weight parameter to obtain the sequencing priority of each coil identification, wherein the sequencing weight parameter of the delivery time is greater than the weight parameter of the coil furnace distribution mode; the weight parameter of the coil furnace distribution mode is larger than that of the size of the pouring chassis; the weight parameter of the size of the pouring chassis is larger than the weight parameter of the pouring amount.

In the method provided by the embodiment of the present invention, based on the foregoing implementation process, specifically, the selecting a plurality of coil identifiers to record in a preset furnace entry sheet template of a curing furnace according to the sequence of the coil identifiers from high to low in order to generate a furnace entry sheet of the curing furnace includes:

acquiring a preset furnace entering single template of the curing furnace in an idle state;

sequentially judging whether each coil identification meets the recording condition of the furnace entry single template or not according to the sequence of the sequencing priority of each coil identification from high to low, and selecting the coil identification meeting the recording condition to record to the furnace entry single template to obtain a furnace entry single of the curing furnace;

the process of judging whether each coil identification meets the recording condition of the furnace entering single template comprises the following steps:

judging whether the total pouring chassis size corresponding to the coil identifier is smaller than a preset pouring chassis threshold value or not, wherein the total pouring chassis size corresponding to the coil identifier is the sum of the pouring chassis size of the coil identifier and the pouring chassis size of the coil identifier which is currently recorded to the charging single template;

judging whether the total pouring quantity corresponding to the coil identification is smaller than a preset pouring quantity threshold value or not, wherein the total pouring quantity of the coil identification is the sum of the pouring quantity of the coil identification and the pouring quantity of the coil identification which is recorded to the furnace entering single template currently;

and if the size of the total pouring chassis is smaller than the pouring chassis threshold value and the total pouring amount is smaller than the pouring amount threshold value, determining that the coil identification meets the recording condition.

In the method provided by the embodiment of the invention, the furnace-entering single template is arranged according to the size of the furnace-entering trolley of the curing furnace.

And after the coil identifications meeting the recording conditions are recorded to the furnace entering list, judging whether the coil identifications which are not recorded to the furnace entering list exist currently, if so, re-acquiring the furnace entering list template of the curing furnace in the idle state currently, judging whether each coil identification meets the preset recording conditions according to the sequence of the sequencing priority of each current residual coil identification from high to low, and recording the coil identifications meeting the recording conditions into a new furnace entering list template.

Specifically, the process from the coil identification record to the furnace entering single template is as follows: determining the size information of a pouring curing trolley corresponding to the furnace entering single template, assuming that the length of the pouring curing trolley is Xcm and the width of the pouring curing trolley is Ycm, calculating the coordinate information corresponding to the placement of each pouring chassis provided with coils corresponding to coil identifiers in the coordinate system by using the lower left corner of the curing trolley as the origin of coordinates, and recording the coil identifiers to the positions corresponding to the coordinate information in the furnace entering single template, wherein the placement mode of the coils on the pouring curing trolley is as follows: the X-axis arrangement is completed firstly, the Y-axis arrangement is completed from bottom to top, and a certain interval exists between every two adjacent coils.

In the process of recording each coil identification to the furnace entering single template, accumulating the pouring amount of each coil identification which is currently recorded to the furnace entering single template to obtain an accumulated pouring amount value; accumulating the sizes of the pouring chassis of all coil identifications recorded to the furnace entering single template at present to obtain an accumulated value of the sizes of the pouring chassis; before recording each coil identification to the furnace entering single template, judging whether the sum of the size of the pouring chassis of the coil identification and the accumulated value of the size of the pouring chassis is smaller than a preset size threshold value or not; judging whether the sum of the pouring amount of the coil mark and the accumulated pouring amount value is smaller than a preset pouring amount threshold value or not; and when any judgment result of the two judgment results is negative, determining that the coil identification does not accord with the recording condition, continuously judging whether the next coil identification of the coil identification meets the recording condition, and taking the furnace entering list template as a furnace entering list when the coil identification meeting the recording condition does not exist.

In the method provided in the embodiment of the present invention, based on the above implementation process, specifically, after the generating the furnace entering list, the method further includes:

and sending the furnace entering list to a coil sorting system, so that the coil sorting system sorts the coils according to the furnace entering list.

In the method provided by the embodiment of the invention, the coil sorting System may be a Warehouse Management System (WMS), and after receiving the incoming sheet, the WMS controls the sorting device to sort the coil corresponding to the coil identifier to the coordinate corresponding to the trolley according to each coil identifier recorded on the incoming sheet and the coordinate of each coil identifier on the incoming curing trolley.

Corresponding to the method described in fig. 1, an embodiment of the present invention further provides a device for generating a stokehold order, which is used to implement the method in fig. 1 specifically, and the device for generating a stokehold order provided in the embodiment of the present invention may be applied to a computer terminal or various mobile devices, and a schematic structural diagram of the device is shown in fig. 4, and specifically includes:

the calling unit 401 is configured to call a preset production plan scheduling APS interface to obtain production plan information when receiving a furnace entering list generation instruction;

a determining unit 402, configured to determine a coil type currently to be charged into the furnace based on the production plan information;

an obtaining unit 403, configured to obtain a coil identifier of each coil of the coil type;

and the generating unit 404 is configured to select a plurality of coil identifiers to be recorded in a preset furnace entry list template of the curing furnace in an idle state according to the sequence of the sequence priorities of the coil identifiers from high to low so as to generate a furnace entry list of the curing furnace, where the sequence priorities are determined according to the delivery time of the coil identifier to which the coil identifier belongs, a coil furnace allocation mode, a pouring chassis size, and a pouring amount.

In an embodiment provided by the present invention, based on the above scheme, optionally, the determining unit 402 includes:

the first obtaining subunit is used for obtaining each order to be completed contained in the product plan information;

the determining subunit is used for determining target orders to be completed based on the delivery time of each order to be completed;

and the analysis subunit is used for analyzing the target order to be completed to obtain the type of the coil to be charged currently.

In an embodiment of the present invention, based on the above scheme, optionally, the generating unit 404 for determining the sorting priority according to the delivery time of the coil identifier, the coil batching method, the casting chassis specification, and the casting quantity includes:

the device comprises a calling subunit, a control subunit and a control subunit, wherein the calling subunit is used for calling a preset product life cycle P L M interface to obtain description information of coil identifiers of coils of coil types, and the description information comprises a coil furnace matching mode, a pouring chassis size and a pouring amount of the coil identifiers to which the description information belongs;

a first execution subunit configured to acquire lead times of coil identifications of respective coils of the coil type based on the production schedule information;

and the second execution subunit is used for determining the sequencing priority of each coil identifier according to the delivery time of each coil identifier, the coil furnace matching mode, the casting chassis size and the casting amount.

In an embodiment provided by the present invention, based on the above scheme, optionally, the generating unit 404 includes:

the second acquisition subunit is used for acquiring a preset furnace entering single template of the curing furnace in an idle state;

the judging subunit is used for sequentially judging whether each coil identifier meets the recording condition of the furnace entering single template according to the sequence of the sequence priority of each coil identifier from high to low, and recording the coil identifiers meeting the recording condition into the furnace entering single template to obtain a furnace entering single of the curing furnace;

wherein, the process of judging whether each coil identification meets the recording condition of the furnace entering single template comprises the following steps:

judging whether the total pouring chassis size corresponding to the coil identifier is smaller than a preset pouring chassis threshold value or not, wherein the total pouring chassis size corresponding to the coil identifier is the sum of the pouring chassis size of the coil identifier and the pouring chassis size of the coil identifier which is currently recorded to the charging single template;

judging whether the total pouring quantity corresponding to the coil identification is smaller than a preset pouring quantity threshold value or not, wherein the total pouring quantity of the coil identification is the sum of the pouring quantity of the coil identification and the pouring quantity of the coil identification which is recorded to the furnace entering single template currently;

and if the size of the total pouring chassis is smaller than the pouring chassis threshold value and the total pouring amount is smaller than the pouring amount threshold value, determining that the coil identification meets the recording condition.

In an embodiment provided by the present invention, based on the above scheme, optionally, the furnace entering list generating device further includes:

and the sending unit is used for sending the furnace entering list to a coil sorting system, so that the coil sorting system can sort the coils according to the furnace entering list.

The specific principle and the implementation process of each unit and each module in the furnace entering list generating device disclosed in the embodiment of the present invention are the same as those of the furnace entering list generating method disclosed in the embodiment of the present invention, and reference may be made to corresponding parts in the furnace entering list generating method provided in the embodiment of the present invention, which are not described herein again.

The embodiment of the invention also provides a storage medium, which comprises a stored instruction, wherein when the instruction runs, the equipment where the storage medium is located is controlled to execute the furnace entering list generating method.

An electronic device is provided in an embodiment of the present invention, and the structural diagram of the electronic device is shown in fig. 5, which specifically includes a memory 501 and one or more instructions 502, where the one or more instructions 502 are stored in the memory 501, and are configured to be executed by one or more processors 503 to perform the following operations according to the one or more instructions 502:

responding to a furnace entering list generation instruction, calling a preset production plan scheduling APS interface, and obtaining production plan information;

determining the type of a coil to be fed into the furnace currently based on the production plan information;

acquiring coil identification of each coil of the coil type;

and selecting a plurality of coil identifiers according to the sequence of the sequencing priorities of the coil identifiers from high to low, recording the coil identifiers into a preset furnace entering list template of the curing furnace in an idle state, and generating a furnace entering list of the curing furnace, wherein the sequencing priorities are determined according to the delivery time of the coil identifiers, the furnace matching mode of the coils, the size of a pouring chassis and the pouring amount.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other. For the device-like embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

For convenience of description, the above devices are described as being divided into various units by function, and are described separately. Of course, the functions of the units may be implemented in the same software and/or hardware or in a plurality of software and/or hardware when implementing the invention.

From the above description of the embodiments, it is clear to those skilled in the art that the present invention can be implemented by software plus necessary general hardware platform. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which may be stored in a storage medium, such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the embodiments or some parts of the embodiments.

The method for generating the furnace entering list provided by the invention is described in detail, a specific example is applied in the method to explain the principle and the implementation mode of the invention, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. A method for generating a furnace entry list is characterized by comprising the following steps:

responding to a furnace entering list generation instruction, calling a preset production plan scheduling APS interface, and obtaining production plan information;

determining the type of a coil to be fed into the furnace currently based on the production plan information;

acquiring coil identification of each coil of the coil type;

and selecting a plurality of coil identifiers according to the sequence of the sequencing priorities of the coil identifiers from high to low, recording the coil identifiers into a preset furnace entering list template of the curing furnace in an idle state, and generating a furnace entering list of the curing furnace, wherein the sequencing priorities are determined according to the delivery time of the coil identifiers, the furnace matching mode of the coils, the size of a pouring chassis and the pouring amount.

2. The method of claim 1, wherein said determining a coil type currently to be charged to the furnace based on the production plan information comprises:

obtaining each order to be completed contained in the product plan information;

determining a target to-be-completed order based on the delivery time of each to-be-completed order;

and analyzing the target order to be completed to obtain the type of the coil to be charged currently.

3. The method of claim 1, wherein the process of determining the sequencing priority based on lead time of coil identification, coil batching, casting floor specification, and casting volume comprises:

calling a preset product life cycle P L M interface to obtain description information of the coil identification of each coil of the coil type, wherein the description information comprises the coil proportioning mode, the pouring chassis size and the pouring amount of the coil identification to which the description information belongs;

obtaining lead times of coil identifications of respective coils of the coil type based on the production schedule information;

and determining the sequencing priority of each coil identifier according to the delivery time, the coil furnace matching mode, the casting chassis size and the casting amount of each coil identifier.

4. The method of claim 3, wherein the selecting a plurality of coil identifiers to record in a preset oven entry sheet template of the curing oven according to the sequence of the coil identifiers from high to low in order to generate the oven entry sheet of the curing oven comprises:

acquiring a preset furnace entering single template of the curing furnace in an idle state;

sequentially judging whether each coil identification meets the recording condition of the furnace entry single template or not according to the sequence of the sequencing priority of each coil identification from high to low, and recording the coil identification meeting the recording condition into the furnace entry single template to obtain a furnace entry single of the curing furnace;

wherein, the process of judging whether each coil identification meets the recording condition of the furnace entering single template comprises the following steps:

judging whether the total pouring chassis size corresponding to the coil identifier is smaller than a preset pouring chassis threshold value or not, wherein the total pouring chassis size corresponding to the coil identifier is the sum of the pouring chassis size of the coil identifier and the pouring chassis size of the coil identifier which is currently recorded to the charging single template;

judging whether the total pouring quantity corresponding to the coil identification is smaller than a preset pouring quantity threshold value or not, wherein the total pouring quantity of the coil identification is the sum of the pouring quantity of the coil identification and the pouring quantity of the coil identification which is recorded to the furnace entering single template currently;

and if the size of the total pouring chassis is smaller than the pouring chassis threshold value and the total pouring amount is smaller than the pouring amount threshold value, determining that the coil identification meets the recording condition.

5. The method of claim 1, wherein after generating the furnace entry list, further comprising:

and sending the furnace entering list to a coil sorting system, so that the coil sorting system sorts the coils according to the furnace entering list.

6. An incoming sheet generation device, comprising:

the calling unit is used for calling a preset production plan scheduling APS interface to obtain production plan information when receiving a furnace entering list generation instruction;

the determining unit is used for determining the type of the coil to be charged into the furnace currently based on the production plan information;

an obtaining unit, configured to obtain a coil identifier of each coil of the coil type;

and the generating unit is used for selecting a plurality of coil identifiers to be recorded into a preset furnace entering list template of the curing furnace in an idle state according to the sequence of the sequence priorities of the coil identifiers from high to low so as to generate a furnace entering list of the curing furnace, wherein the sequence priorities are determined according to the delivery time of the coil identifiers, the coil furnace matching mode, the size of a pouring chassis and the pouring amount.

7. The apparatus of claim 6, wherein the determining unit comprises:

the first obtaining subunit is used for obtaining each order to be completed contained in the product plan information;

the determining subunit is used for determining target orders to be completed based on the delivery time of each order to be completed;

and the analysis subunit is used for analyzing the target order to be completed to obtain the type of the coil to be charged currently.

8. The apparatus of claim 6, wherein the generation unit for determining the priority of the sequence according to the delivery time of the coil identifier, the coil batching manner, the casting floor specification and the casting amount comprises:

the device comprises a calling subunit, a control subunit and a control subunit, wherein the calling subunit is used for calling a preset product life cycle P L M interface to obtain description information of coil identifiers of coils of coil types, and the description information comprises a coil furnace matching mode, a pouring chassis size and a pouring amount of the coil identifiers to which the description information belongs;

a first execution subunit configured to acquire lead times of coil identifications of respective coils of the coil type based on the production schedule information;

and the second execution subunit is used for determining the sequencing priority of each coil identifier according to the delivery time of each coil identifier, the coil furnace matching mode, the casting chassis size and the casting amount.

9. The apparatus of claim 6, wherein the generating unit comprises:

the second acquisition subunit is used for acquiring a preset furnace entering single template of the curing furnace in an idle state;

the judging subunit is used for sequentially judging whether each coil identifier meets the recording condition of the furnace entering single template according to the sequence of the sequence priority of each coil identifier from high to low, and recording the coil identifiers meeting the recording condition into the furnace entering single template to obtain a furnace entering single of the curing furnace;

wherein, the process of judging whether each coil identification meets the recording condition of the furnace entering single template comprises the following steps:

judging whether the total pouring chassis size corresponding to the coil identifier is smaller than a preset pouring chassis threshold value or not, wherein the total pouring chassis size corresponding to the coil identifier is the sum of the pouring chassis size of the coil identifier and the pouring chassis size of the coil identifier which is currently recorded to the charging single template;

judging whether the total pouring quantity corresponding to the coil identification is smaller than a preset pouring quantity threshold value or not, wherein the total pouring quantity of the coil identification is the sum of the pouring quantity of the coil identification and the pouring quantity of the coil identification which is recorded to the furnace entering single template currently;

and if the size of the total pouring chassis is smaller than the pouring chassis threshold value and the total pouring amount is smaller than the pouring amount threshold value, determining that the coil identification meets the recording condition.

10. The apparatus of claim 6, further comprising:

and the sending unit is used for sending the furnace entering list to a coil sorting system, so that the coil sorting system can sort the coils according to the furnace entering list.

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