Intelligent tracking management method, device and system for automatic part orders

文档序号:8983 发布日期:2021-09-17 浏览:36次 中文

1. An intelligent tracking management method for an automatic part order is characterized by comprising the following steps:

acquiring first order information input by a user; the first order information comprises first part information of a first part expected to be ordered by a first customer and a first order amount;

calling and updating a first order quantity of the first parts stored in a central database according to the first part information, and judging whether the current stock of the first parts is sufficient or not according to the first order quantity and the first stock quantity;

if the current inventory is sufficient, updating and displaying a first inventory, a first quality inspection quantity to be delivered and a first quantity to be delivered of the first part according to a preset first order tracking method, and sending first delivery information to the user and the first client;

and if the current inventory is insufficient, updating and displaying a first planned demand quantity, a first production quantity, a first purchase quantity, a first export quantity, a first quality inspection quantity to be warehoused and a first inventory quantity of the first part according to a preset second order tracking method, and sending second delivery information to the user and the first customer.

2. The method for intelligent tracking management of automated part orders according to claim 1, further comprising, prior to said obtaining first order information entered by a user:

respectively receiving a first parameter group of a plurality of parts input by a user, establishing a central database according to the first parameter group of each part, and displaying data in the central database in a preset mode; the first parameter group comprises a part name, a part code, a part model, a structure diagram, an ordering quantity, a stock quantity, a to-be-delivered quality inspection quantity, a to-be-delivered quantity, a planned demand quantity, a production quantity, a purchasing quantity, an outside co-production quantity, a to-be-warehoused quality inspection quantity and a stock quantity.

3. The intelligent tracking management method for the automatic part order according to claim 2, wherein the first inventory quantity, the first quality inspection quantity to be shipped and the first quantity to be shipped of the first part are updated and displayed according to a preset first order tracking method, and first delivery information is sent to the user and the first customer, specifically:

sending delivery confirmation information to the user, updating and displaying the first inventory of the first part and the first quality inspection quantity to be delivered after the user confirms delivery, and predicting the first delivery quality inspection prediction time according to the updated first quality inspection quantity to be delivered;

sending the updated first quality inspection quantity to be delivered and the first estimated time of the quality inspection of the delivered goods as first delivery information to the user and the first client, and waiting for receiving first quality inspection completion information input by the user;

after the first delivery quality inspection completion information is received, updating and displaying the first to-be-delivered quantity of the first part, and estimating first delivery estimation time according to the updated first to-be-delivered quantity;

and sending the updated first to-be-delivered quantity and the updated first delivery estimated time as updated first delivery information to the user and the first client.

4. The intelligent tracking management method for the automatic part order according to claim 3, wherein the method for tracking and displaying the first planned demand, the first production, the first purchase, the first export production, the first quality inspection to be put in storage and the first inventory of the first part according to the preset second order tracking method comprises the following steps:

sending out insufficient inventory information to the user, updating and displaying the first planned demand of the first part, and generating corresponding first supply order information according to a second difference and the first part information; the second difference is an absolute value of a difference between the first inventory amount and the first order amount; the first supply order information comprises a first supply prompt and a first supply mode;

acquiring a first replenishment mode selected by the user according to the first replenishment prompt, updating and displaying a first yield, a first purchase amount and a first outsourced production amount of the first part according to the first replenishment mode, and predicting first replenishment prediction time; the first supply mode comprises a first production supply amount, a first purchasing supply amount and a first outsourced production supply amount;

sending the first replenishment mode and the first replenishment estimated time to the user and the first client as second delivery information, and waiting for receiving first replenishment information input by the user;

after the first supply goods information is received, updating and displaying the first to-be-warehoused quality inspection quantity of the first part, and estimating the first warehousing quality inspection estimation time according to the updated to-be-warehoused quality inspection quantity;

sending the updated first to-be-warehoused quality inspection amount and the first warehousing quality inspection estimated time as updated second delivery information to the user and the first client, and waiting for receiving first warehousing quality inspection completion information input by the user;

and after receiving the first warehousing quality inspection completion information, updating and displaying the first inventory quantity of the first part.

5. The method of intelligent tracking management of automated part orders according to claim 4, wherein said first part information comprises a combination of one or more of part name, part code, part model, and construction drawing.

6. The method for intelligent tracking management of automated part orders according to claim 5, further comprising:

and receiving a first prompting delivery prompt sent by the first customer, and packaging and sending the first prompting delivery prompt and the first order information to the user or displaying the first prompting delivery prompt and the first order information to the user.

7. The method for intelligent tracking management of automated part orders according to claim 6, wherein the first or second delivery information is also sent to the user or displayed directly to the user.

8. An intelligent tracking management device for an automated part order, characterized in that the intelligent tracking management device is used for executing the intelligent tracking management method for the automated part order according to any one of claims 1-7.

9. The intelligent tracking management device of automated part orders as claimed in claim 8, comprising a processing module, a first communication module and an input display module, the processing module being connected to the first communication module and the input display module, respectively.

10. An intelligent tracking management system for automated part orders, the intelligent tracking management system comprising: intelligent tracking management of automated part orders apparatus according to claim 8 or 9 and a client device comprising a second communication module; the client device is in communication connection with the intelligent tracking management device through the first communication module and the second communication module.

Background

The order management and execution tracking of the current automated component industry is a very important part in the sales business, which not only relates to the delivery efficiency and quality of the customers, but also further affects the public praise of the customers and the brands of companies. The automatic parts industry has a lot of products and models, the requirements on the quality and precision of the products are high, and meanwhile, the delivery period of the products required in the project is very urgent, so that the detailed order quality control and the order execution tracking are the real problems which need to be solved urgently by each automatic parts industry, all states and production progress of the orders can be known in real time through the detailed order execution tracking and the quality control management, and the real-time delivery cycle of the orders can be calculated according to the order related calculation algorithm, so that the customer satisfaction and the delivery efficiency are improved.

In the prior art, the processing mode of the system is basically distributed management, and at most, only the amount of sent goods and the amount of unserved goods in the sales order can be managed.

However, such processing methods and systems still have drawbacks: because the order quantity of each part, the corresponding existing inventory quantity, the quality inspected product quantity, the purchase quantity, the production quantity and other data cannot be uniformly monitored and managed in real time, the whole order execution state cannot be displayed in real time, and decision support cannot be provided for enterprise operation managers.

Therefore, there is a need for an intelligent tracking management method, apparatus and system for automatic part orders, so as to overcome the above-mentioned problems in the prior art.

Disclosure of Invention

In view of the above technical problems, an object of the present invention is to provide an intelligent tracking management method, apparatus and system for an automatic part order, which can realize intelligent monitoring, tracking and displaying of the whole processes of order taking, warehousing and ex-warehouse, quality inspection, production and outsource production, purchasing, shipping and delivery, etc. of the order, thereby showing the execution state of the whole order to the user and the client in real time.

The invention provides an intelligent tracking management method for an automatic part order, which comprises the following steps: acquiring first order information input by a user; the first order information comprises first part information of a first part expected to be ordered by a first customer and a first order amount; calling and updating a first order quantity of the first parts stored in a central database according to the first part information, and judging whether the current stock of the first parts is sufficient or not according to the first order quantity and the first stock quantity; if the current inventory is sufficient, updating and displaying a first inventory, a first quality inspection quantity to be delivered and a first quantity to be delivered of the first part according to a preset first order tracking method, and sending first delivery information to the user and the first client; and if the current inventory is insufficient, updating and displaying a first planned demand quantity, a first production quantity, a first purchase quantity, a first export quantity, a first quality inspection quantity to be warehoused and a first inventory quantity of the first part according to a preset second order tracking method, and sending second delivery information to the user and the first customer.

In one embodiment, before the acquiring the first order information input by the user, the method further includes: respectively receiving a first parameter group of a plurality of parts input by a user, establishing a central database according to the first parameter group of each part, and displaying data in the central database in a preset mode; the first parameter group comprises a part name, a part code, a part model, a structure diagram, an ordering quantity, a stock quantity, a to-be-delivered quality inspection quantity, a to-be-delivered quantity, a planned demand quantity, a production quantity, a purchasing quantity, an outside co-production quantity, a to-be-warehoused quality inspection quantity and a stock quantity.

In an embodiment, the updating and displaying the first inventory amount, the first quality inspection to be shipped amount, and the first quantity to be shipped of the first part according to a preset first order tracking method, and sending first delivery information to the user and the first customer, specifically: sending delivery confirmation information to the user, updating and displaying the first inventory of the first part and the first quality inspection quantity to be delivered after the user confirms delivery, and predicting the first delivery quality inspection prediction time according to the updated first quality inspection quantity to be delivered; sending the updated first quality inspection quantity to be delivered and the first estimated time of the quality inspection of the delivered goods as first delivery information to the user and the first client, and waiting for receiving first quality inspection completion information input by the user; after the first delivery quality inspection completion information is received, updating and displaying the first to-be-delivered quantity of the first part, and estimating first delivery estimation time according to the updated first to-be-delivered quantity; and sending the updated first to-be-delivered quantity and the updated first delivery estimated time as updated first delivery information to the user and the first client.

In an embodiment, the updating and displaying the first planned demand, the first production volume, the first procurement volume, the first export volume, the first quality inspection volume to be warehoused and the first inventory volume of the first part according to a preset second order tracking method, and sending second delivery information to the user and the first customer specifically includes: sending out insufficient inventory information to the user, updating and displaying the first planned demand of the first part, and generating corresponding first supply order information according to a second difference and the first part information; the second difference is an absolute value of a difference between the first inventory amount and the first order amount; the first supply order information comprises a first supply prompt and a first supply mode; acquiring a first replenishment mode selected by the user according to the first replenishment prompt, updating and displaying a first yield, a first purchase amount and a first outsourced production amount of the first part according to the first replenishment mode, and predicting first replenishment prediction time; the first supply mode comprises a first production supply amount, a first purchasing supply amount and a first outsourced production supply amount; sending the first replenishment mode and the first replenishment estimated time to the user and the first client as second delivery information, and waiting for receiving first replenishment information input by the user; after the first supply goods information is received, updating and displaying the first to-be-warehoused quality inspection quantity of the first part, and estimating the first warehousing quality inspection estimation time according to the updated to-be-warehoused quality inspection quantity; sending the updated first to-be-warehoused quality inspection amount and the first warehousing quality inspection estimated time as updated second delivery information to the user and the first client, and waiting for receiving first warehousing quality inspection completion information input by the user; and after receiving the first warehousing quality inspection completion information, updating and displaying the first inventory quantity of the first part.

In one embodiment, the first part information includes a combination of one or more of a part name, a part code, a part model number, and a structure diagram.

In one embodiment, a first expedited delivery alert sent by the first customer is received, and the first expedited delivery alert and the first order information are packaged for sending to or displaying to the user.

In one embodiment, the first delivery information or the second delivery information is also sent to the user or displayed directly to the user.

The invention also provides an intelligent tracking management device for the automatic part orders, which is used for executing the intelligent tracking management method for the automatic part orders.

In one embodiment, the intelligent tracking management device comprises a processing module, a first communication module and an input display module, wherein the processing module is respectively connected to the first communication module and the input display module.

The invention also provides an intelligent tracking management system for the automatic part orders, which comprises the following components: the intelligent tracking management device comprises client equipment and the intelligent tracking management device for the automatic part orders, wherein the client equipment comprises a second communication module; the client device is in communication connection with the intelligent tracking management device through the first communication module and the second communication module.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

the invention provides an intelligent tracking management method, device and system for an automatic part order, which not only realize intelligent monitoring, tracking and displaying of the whole processes of order taking, warehouse entering and exiting, quality inspection, production and outsourced production, purchasing, delivery and the like of the order, but also push the delivery state and predicted delivery time of the order to a client and improve the consumption experience of the client by uniformly monitoring, updating and managing the ordered quantity, inventory quantity, quality inspection quantity of goods to be delivered, planned demand quantity, production quantity, purchase quantity, outsourced production quantity, quality inspection quantity of goods to be warehoused, inventory quantity and the like of each part in real time and sending first delivery information or second delivery information to the client.

Furthermore, the intelligent tracking management method, the intelligent tracking management device and the intelligent tracking management system for the automatic part orders receive the prompt delivery prompt of the customer and push the prompt and the corresponding order form information to the user, so that the user can better control the requirements of each customer and better control the scheduling delivery strategy.

Drawings

The invention will be further described with reference to the accompanying drawings, in which:

FIG. 1 illustrates a flow diagram for one embodiment of a method for intelligent tracking management of automated part orders, in accordance with the present invention;

FIG. 2 illustrates a flow diagram of another embodiment of a method for intelligent tracking management of automated part orders in accordance with the present invention;

FIG. 3 illustrates a block diagram of one embodiment of an intelligent tracking management device for automated part orders, in accordance with the present invention;

FIG. 4 illustrates a block diagram of one embodiment of an intelligent tracking management system for automated part orders, according to 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.

Detailed description of the preferred embodiment

FIG. 1 illustrates a flow diagram of one embodiment of a method for intelligent tracking management of an automated part order, comprising the steps of:

and S1, acquiring the first order information input by the user.

The first order information includes first part information of a first part that the first customer desires to order and a first order amount. The first part information comprises one or more combinations of part names, part codes, part models and structure diagrams.

And S2, calling and updating the first order quantity of the first parts stored in the central database according to the first part information, and judging whether the current stock of the first parts is sufficient according to the first order quantity and the first stock quantity.

After the first part information and the first order quantity of the first part expected to be ordered by the first customer are determined, indexing is carried out in the central database according to the first part information, and therefore all parameters of the first part stored in the central database are called out (all parameters of the first part comprise a first ordering quantity, a first stock quantity, a first to-be-delivered quality inspection quantity, a first to-be-delivered quantity, a first planned demand quantity, a first production quantity, a first purchasing quantity, a first outside-in-storage quality inspection quantity, a first to-be-stored quantity and the like). Subsequently, the first order quantity of the first part held in the central database is updated to the sum of the first order quantity and the first order quantity, and the sum value is displayed as a new first order quantity.

In addition to updating the parameters of the first part, in this step, it is determined whether the first inventory amount is sufficient or not based on the first order amount and the first inventory amount. In one embodiment, the numerical size of the first order quantity and the first stock quantity may be compared, and when the first order quantity is smaller than the first stock quantity, the stock is judged to be sufficient, and step S31 is executed; when the first order amount is larger than the first stock amount, it is judged that the stock is insufficient, and step S32 is executed.

And S31, if the current inventory is sufficient, updating and displaying the first inventory quantity, the first quality inspection quantity to be delivered and the first quantity to be delivered of the first part according to a preset first order tracking method, and sending first delivery information to the user and the first client.

And S32, if the current inventory is insufficient, updating and displaying the first planned demand, the first production quantity, the first purchase quantity, the first export production quantity, the first quality inspection quantity to be warehoused and the first inventory quantity of the first part according to a preset second order tracking method, and sending second delivery information to the user and the first client.

Sending the first delivery information or the second delivery information to the user and the first customer enables the user and the first customer to know the order fulfillment status node more clearly. For a user, the user can know the arrangement and execution conditions of all current orders more macroscopically by acquiring the first delivery information or the second delivery information of a plurality of orders, so that the warehouse-in and warehouse-out arrangement of various parts is scheduled and adjusted according to the actual conditions and the actual requirements; for the first customer, the first delivery information or the second delivery information of the plurality of orders is acquired, so that the first customer can track and control the state of each order, the order execution condition can be clearly known under normal conditions, tracking and follow-up are facilitated, when an emergency occurs, a corresponding coping strategy is timely adopted for self business layout according to the order state of each order to adjust, and the user experience of the first customer is improved.

In one embodiment, the first delivery information includes an order status and a time to forecast entry into a next status (e.g., an updated first quantity to be shipped and first quality check time, an updated first quantity to be shipped and the first shipment forecast time). In one embodiment, the second delivery information includes the order status and the estimated time to enter the next status (e.g., the first replenishment mode and the first replenishment estimated time, the updated first quality inspection amount to be warehoused and the first warehousing quality inspection estimated time). In one embodiment, the first delivery information and the second delivery information further include an estimated delivery time. In one embodiment, the first delivery information or the second delivery information is transmitted to the user or directly displayed to the user, so that the user can better know delivery conditions of each order, and production, outsourced production, purchase, quality inspection, delivery and the like of the order are scheduled according to actual conditions. In one embodiment, the first delivery information or the second delivery information is also sent to the user or displayed directly to the user.

In step S31, specifically, the preset first order tracking method includes the following steps:

s311: and sending delivery confirmation information to the user, updating and displaying the first inventory of the first part and the first quality inspection quantity to be delivered after the user confirms delivery, and predicting the first delivery quality inspection prediction time according to the updated first quality inspection quantity to be delivered.

When the inventory of the first part is sufficient, sending delivery confirmation information to the user to confirm whether the first part is delivered, thereby reserving a selection window of emergency scheduling and accident situations and preventing the direct calling of the inventory against the expectation of the user when an emergency order is suddenly made or an accident situation exists; when the emergency order is not placed, the user confirms the delivery after receiving the delivery confirmation information. In one embodiment, the delivery confirmation information includes a first order amount, a first inventory amount, a predicted inventory amount after delivery, and a selection confirmation option for the first part. In one embodiment, the delivery confirmation information is sent to the user or displayed to the user, wherein the display mode is popping up a delivery confirmation information window or generating a corner mark prompt.

In the delivery process, the quantity of the first order quantity of the first part to be delivered from the warehouse needs to be changed, and the first part to be delivered is transferred to the quality inspection process before delivery, so that after the user confirms delivery, the first stock quantity and the first quality inspection quantity to be delivered of the first part are increased or decreased correspondingly according to the first order quantity (specifically, the first stock quantity is decreased by the quantity of the first order quantity, and the first quality inspection quantity to be delivered is increased by the quantity of the first order quantity), and the updated first stock quantity and the updated first quality inspection quantity to be delivered are displayed so as to be used for the user to check the quantity, thereby preventing the error condition of data update caused by error calculation.

After the first quality inspection quantity to be delivered is updated, the estimated time of the first quality inspection to be delivered needs to be estimated according to the first quality inspection quantity to be delivered and historical quality inspection data, so that the time approximately needed for completing quality inspection to be delivered according to the current level of the first quality inspection to be delivered is estimated. In one embodiment, the historical shipment quality control data includes a historical first quantity to be shipped for the first part and a corresponding time to complete shipment quality control.

S312: and sending the updated first quality inspection quantity to be delivered and the first estimated time of the quality inspection of the delivered goods as first delivery information to the user and the first client, and waiting for receiving first quality inspection completion information input by the user.

S313: and after receiving the first delivery quality inspection completion information, updating and displaying the first to-be-delivered quantity of the first part, and estimating the first delivery estimation time according to the updated first to-be-delivered quantity.

And after the delivery quality inspection of the first part with the first order quantity is finished, transferring the first part with the first order quantity to a delivery flow, and then updating the first to-be-delivered quantity of the first part in the central database.

S314: and sending the updated first to-be-delivered quantity and the updated first delivery estimated time as updated first delivery information to the user and the first client.

In step S32, specifically, the preset second order tracking method includes the following steps:

s321, sending the inventory shortage information to the user, updating and displaying the first planned demand of the first part, and generating corresponding first supply order information according to the second difference and the first part information.

When the first part is in short stock, the short stock information needs to be sent to the user for reminding. Meanwhile, according to the second difference and the first part information, the embodiment of the invention automatically generates the first replenishment order information and provides the first replenishment order information to the user as an optional coping strategy for the stock shortage.

The first replenishment order information is used for suggesting the user to select and set a first replenishment mode to replenish the first part by sending or displaying a first replenishment prompt to the user. The second difference is an absolute value of a difference between the first inventory amount and the first order amount, and the first replenishment order information includes a first replenishment prompt and a first replenishment mode. In one embodiment, the first replenishment mode includes a first production replenishment amount, a first procurement replenishment amount, and a first export replenishment amount. In one embodiment, the first replenishment order information further includes a manufacturer, a purchasing manufacturer, and a outsourcer manufacturer. In one embodiment, the first production replenishment amount, the first purchase replenishment amount, the first export replenishment amount, the manufacturer, the purchasing manufacturer, and the export manufacturer are default set to the highest frequency user selected value or object in the historical first replenishment order.

In this way, the user can make a replenishment order of the first part through the first replenishment order information, thereby replenishing the stock to meet the delivery amount requirement of the order.

And S322, acquiring a first replenishment mode selected by the user according to the first replenishment prompt, updating and displaying the first yield, the first purchase amount and the first outsourced production amount of the first part according to the first replenishment mode, and predicting first replenishment prediction time.

S323, the first replenishment mode and the first replenishment estimated time are used as second delivery information to be sent to the user and the first client, and the first replenishment information input by the user is waited to be received.

And S324, after the first supply goods information is received, updating and displaying the first to-be-warehoused quality inspection quantity of the first part, and estimating the first warehousing quality inspection estimation time according to the updated to-be-warehoused quality inspection quantity.

And S325, sending the updated first to-be-warehoused quality inspection quantity and the first warehousing quality inspection estimated time as updated second delivery information to the user and the first client, and waiting for receiving first warehousing quality inspection completion information input by the user.

And S326, after receiving the first warehousing quality inspection completion information, updating and displaying the first inventory quantity of the first part.

The reception of the first-in-stock quality inspection completion information means completion of the replenishment process of the first component, and since the replenishment process increases the stock amount of the first component, the first stock amount of the first component needs to be updated and displayed. After the first stock quantity of the first parts is updated, step S2 should be executed again to determine whether the first stock quantity of the first parts after replenishment is sufficient, and step S31 is executed when sufficient to complete shipment, and step S32 is executed when insufficient, so as to go back and forth, thereby completing the entire process of order placement to shipment from the first customer.

The invention provides an intelligent tracking management method for an automatic part order, which not only realizes intelligent monitoring, tracking and displaying of the whole processes of order taking, warehouse entering and exiting, quality inspection, production and outsourced production, purchasing, delivery and the like of the order, but also pushes the delivery state and predicted delivery time of the order to a client and improves the consumption experience of the client by uniformly monitoring, updating and managing the ordered quantity, inventory quantity, quality inspection quantity of goods to be delivered, quantity to be delivered, outsourced quantity of goods, quality inspection quantity of goods to be put in storage, inventory quantity and the like of the parts in real time and transmitting first delivery information or second delivery information to the client.

Detailed description of the invention

In addition to the intelligent tracking management method for the automatic part orders described in the above embodiments, the present invention may also implement an intelligent tracking management method for the automatic part orders according to another embodiment of the present invention. FIG. 2 illustrates a flow diagram of another embodiment of a method for intelligent tracking management of automated part orders in accordance with the present invention.

SS 1: the method comprises the steps of respectively receiving a first parameter group of a plurality of parts input by a user, establishing a central database according to the first parameter group of each part, and displaying data in the central database in a preset mode.

In the intelligent tracking management process of the automatic part orders, the management of a database is very important. In order to track and manage the part order, an initial central database is necessarily established, and then data of each part is input, updated, managed, monitored and displayed according to specific business activities. In one embodiment, the first parameter set includes part name, part code, part model, structure diagram, order quantity, inventory quantity, quality inspection quantity of goods to be delivered, quantity to be delivered, planned demand quantity, production quantity, purchase quantity, export production quantity, quality inspection quantity of goods to be warehoused, and inventory quantity. In one embodiment, the parameters in the first parameter group are optionally entered, and when a parameter has no input, the parameter will default to 0. In one embodiment, when a parameter of the first set of parameters is entered as a non-numeric character, the user is prompted for input confirmation information to allow the user to check for abnormal input. In one embodiment, the preset mode may be a chart or other display mode.

And SS2, acquiring the first order information input by the user.

The first order information includes first part information of a first part that the first customer desires to order and a first order amount. The first part information includes one or more of a part name, a part code, a part model number, and a configuration diagram.

And SS3, calling and updating the first order quantity of the first parts stored in a central database according to the first part information, and judging whether the current stock of the first parts is sufficient according to the first order quantity and the first stock quantity.

After the first part information and the first order quantity of the first part expected to be ordered by the first customer are determined, indexing is carried out in the central database according to the first part information, and therefore all parameters of the first part stored in the central database are called out (all parameters of the first part comprise a first ordering quantity, a first stock quantity, a first to-be-delivered quality inspection quantity, a first to-be-delivered quantity, a first planned demand quantity, a first production quantity, a first purchasing quantity, a first outside-in-storage quality inspection quantity, a first to-be-stored quantity and the like). Subsequently, the first order quantity of the first part held in the central database is updated to the sum of the first order quantity and the first order quantity, and the sum value is displayed as a new first order quantity.

In addition to updating the parameters of the first part, in this step, it is determined whether the first inventory amount is sufficient or not based on the first order amount and the first inventory amount. In one embodiment, the numerical size of the first order quantity and the first inventory quantity may be compared, and when the first order quantity is smaller than the first inventory quantity, the inventory is judged to be sufficient, and step SS41 is executed; when the first order quantity is larger than the first stock quantity, it is judged that the stock is insufficient, and step SS42 is executed.

And SS41, if the current stock is sufficient, updating and displaying the first stock quantity, the first quality inspection quantity to be delivered and the first quantity to be delivered of the first part according to a preset first order tracking method, and sending first delivery information to the user and the first client.

And SS42, if the current inventory is insufficient, updating and displaying the first planned demand, the first production quantity, the first purchase quantity, the first export production quantity, the first to-be-warehoused quality inspection quantity and the first inventory quantity of the first part according to a preset second order tracking method, and sending second delivery information to the user and the first client.

In one embodiment, the method further comprises: and receiving a first prompting delivery prompt sent by the first customer, and packaging and sending the first prompting delivery prompt and the first order information to the user or displaying the first prompting delivery prompt and the first order information to the user.

When the first customer urgently needs the first part which is not delivered, the first part can be prompted to be delivered by sending the first prompting delivery reminding and the first order information to the user, so that the user can know the prompted order without searching additionally according to the first prompting delivery reminding.

Sending the first delivery information or the second delivery information to the user and the first customer enables the user and the first customer to know the order fulfillment status node more clearly. For a user, the user can know the arrangement and execution conditions of all current orders more macroscopically by acquiring the first delivery information or the second delivery information of a plurality of orders, so that the warehouse-in and warehouse-out arrangement of various parts is scheduled and adjusted according to the actual conditions and the actual requirements; for the first customer, the first delivery information or the second delivery information of the plurality of orders is acquired, so that the first customer can track and control the state of each order, the order execution condition can be clearly known under normal conditions, tracking and follow-up are facilitated, when an emergency occurs, a corresponding coping strategy is timely adopted for self business layout according to the order state of each order to adjust, and the user experience of the first customer is improved.

In one embodiment, the first delivery information includes an order status and a time to forecast entry into a next status (e.g., an updated first quantity to be shipped and first quality check time, an updated first quantity to be shipped and the first shipment forecast time). In one embodiment, the second delivery information includes the order status and the estimated time to enter the next status (e.g., the first replenishment mode and the first replenishment estimated time, the updated first quality inspection amount to be warehoused and the first warehousing quality inspection estimated time). In one embodiment, the first delivery information and the second delivery information further include an estimated delivery time. In one embodiment, the first delivery information or the second delivery information is transmitted to the user or directly displayed to the user, so that the user can better know delivery conditions of each order, and production, outsourced production, purchase, quality inspection, delivery and the like of the order are scheduled according to actual conditions. In one embodiment, the first delivery information or the second delivery information is also sent to the user or displayed directly to the user.

In one embodiment, the first delivery information or the second delivery information is sent to the user or displayed directly to the user. In one embodiment, the first delivery information or the second delivery information is also sent to the user or displayed directly to the user.

In step SS41, specifically, the preset first order tracking method includes the following steps:

SS 411: and sending delivery confirmation information to the user, updating and displaying the first inventory of the first part and the first quality inspection quantity to be delivered after the user confirms delivery, and predicting the first delivery quality inspection prediction time according to the updated first quality inspection quantity to be delivered.

When the inventory of the first part is sufficient, sending delivery confirmation information to the user to confirm whether the first part is delivered, thereby reserving a selection window of emergency scheduling and accident situations and preventing the direct calling of the inventory against the expectation of the user when an emergency order is suddenly made or an accident situation exists; when the emergency order is not placed, the user confirms the delivery after receiving the delivery confirmation information. In one embodiment, the delivery confirmation information includes a first order amount, a first inventory amount, a predicted inventory amount after delivery, and a selection confirmation option for the first part. In one embodiment, the delivery confirmation information is sent to the user or displayed to the user, wherein the display mode is popping up a delivery confirmation information window or generating a corner mark prompt.

In the delivery process, the quantity of the first order quantity of the first part to be delivered from the warehouse needs to be changed, and the first part to be delivered is transferred to the quality inspection process before delivery, so that after the user confirms delivery, the first stock quantity and the first quality inspection quantity to be delivered of the first part are increased or decreased correspondingly according to the first order quantity (specifically, the first stock quantity is decreased by the quantity of the first order quantity, and the first quality inspection quantity to be delivered is increased by the quantity of the first order quantity), and the updated first stock quantity and the updated first quality inspection quantity to be delivered are displayed so as to be used for the user to check the quantity, thereby preventing the error condition of data update caused by error calculation.

After the first quality inspection quantity to be delivered is updated, the estimated time of the first quality inspection to be delivered needs to be estimated according to the first quality inspection quantity to be delivered and historical quality inspection data, so that the time approximately needed for completing quality inspection to be delivered according to the current level of the first quality inspection to be delivered is estimated. In one embodiment, the historical shipment quality control data includes a historical first quantity to be shipped for the first part and a corresponding time to complete shipment quality control.

And SS 412: and sending the updated first quality inspection quantity to be delivered and the first estimated time of the quality inspection of the delivered goods as first delivery information to the user and the first client, and waiting for receiving first quality inspection completion information input by the user.

SS 413: and after receiving the first delivery quality inspection completion information, updating and displaying the first to-be-delivered quantity of the first part, and estimating the first delivery estimation time according to the updated first to-be-delivered quantity.

And after the delivery quality inspection of the first part with the first order quantity is finished, transferring the first part with the first order quantity to a delivery flow, and then updating the first to-be-delivered quantity of the first part in the central database.

And SS 414: and sending the updated first to-be-delivered quantity and the updated first delivery estimated time as updated first delivery information to the user and the first client.

In step SS42, specifically, the preset second order tracking method includes the following steps:

SS421, sending the information of insufficient stock to the user, updating and displaying the first planned demand of the first part, and generating corresponding first supply order information according to the second difference and the first part information; the second difference is an absolute value of a difference between the first inventory amount and the first order amount; the first supply order information comprises a first supply prompt and a first supply mode.

When the first part is in short stock, the short stock information needs to be sent to the user for reminding. Meanwhile, according to the second difference and the first part information, the embodiment of the invention automatically generates the first replenishment order information and provides the first replenishment order information to the user as an optional coping strategy for the stock shortage.

The first replenishment order information is used for suggesting the user to select and set a first replenishment mode to replenish the first part by sending or displaying a first replenishment prompt to the user. The second difference is an absolute value of a difference between the first inventory amount and the first order amount, and the first replenishment order information includes a first replenishment prompt and a first replenishment mode. In one embodiment, the first replenishment mode includes a first production replenishment amount, a first procurement replenishment amount, and a first export replenishment amount. In one embodiment, the first replenishment order information further includes a manufacturer, a purchasing manufacturer, and a outsourcer manufacturer. In one embodiment, the first production replenishment amount, the first purchase replenishment amount, the first export replenishment amount, the manufacturer, the purchasing manufacturer, and the export manufacturer are default set to the highest frequency user selected value or object in the historical first replenishment order.

In this way, the user can make a replenishment order of the first part through the first replenishment order information, thereby replenishing the stock to meet the delivery amount requirement of the order.

The SS422 is used for acquiring a first replenishment mode selected by the user according to the first replenishment prompt, updating and displaying a first yield, a first purchase amount and a first outsourced production amount of the first part according to the first replenishment mode, and predicting first replenishment prediction time; the first supply mode comprises a first production supply amount, a first purchasing supply amount and a first outsource production supply amount.

And the SS423 sends the first replenishment mode and the first replenishment forecast time to the user and the first client as second delivery information and waits for receiving the first replenishment information input by the user.

And SS424, after receiving the first supply goods information, updating and displaying the first to-be-warehoused quality inspection quantity of the first part, and estimating the first warehousing quality inspection estimation time according to the updated to-be-warehoused quality inspection quantity.

And SS425, sending the updated first quality inspection quantity to be warehoused and the first warehousing quality inspection estimated time as updated second delivery information to the user and the first client, and waiting for receiving first warehousing quality inspection completion information input by the user.

And SS426, after receiving the first warehousing quality inspection completion information, updating and displaying the first inventory quantity of the first part.

The reception of the first-in-stock quality inspection completion information means completion of the replenishment process of the first component, and since the replenishment process increases the stock amount of the first component, the first stock amount of the first component needs to be updated and displayed. After the first stock quantity of the first parts is updated, step SS3 should be executed again to determine whether the first stock quantity of the first parts after replenishment is sufficient, and step SS41 is executed when sufficient to complete the shipment, and step SS42 is executed when insufficient, and so on, to and fro, thereby completing the entire process of the order from the placement by the first customer to the shipment.

The invention provides an intelligent tracking management method for an automatic part order, which is characterized in that the intelligent monitoring, tracking and displaying of the whole processes of order taking, warehouse entering and exiting, quality inspection, production and outsourced production, purchasing, delivery and delivery of the order are realized, the execution state of the whole order is displayed in real time, the delivery state and the predicted delivery time of the order are pushed to a client, and the consumption experience of the client is improved by uniformly monitoring, updating and managing the ordered quantity, the inventory quantity, the quality inspection quantity of the to-be-delivered goods, the quantity of planned demands, the production quantity, the purchasing quantity, the outsourced quantity, the quality inspection quantity of the to-be-put in a warehouse, the inventory quantity and the like of the to-be-stored goods and the like in real time; furthermore, the intelligent tracking management method for the automatic part order further receives the prompt delivery prompt of the customer and pushes the prompt and the corresponding order form information to the user, so that the user can better control the requirements of each customer and better control the scheduling delivery strategy.

Detailed description of the preferred embodiment

In addition to the method, the invention also provides an intelligent tracking management device for the automatic part orders, which is used for executing the intelligent tracking management method for the automatic part orders.

Specifically, FIG. 3 illustrates a block diagram of one embodiment of an intelligent tracking management device for automated part orders according to the present invention. In this embodiment, as shown in fig. 3, the intelligent tracking management device 12 includes a processing module 121, a first communication module 122 and an input display module 123, and the processing module 121 is connected to the first communication module 122 and the input display module 123 respectively.

The processing module 121 includes an entry determination unit 1211, a first order tracking unit 1212, and a second order tracking unit 1213.

The entry determination unit 1211 is configured to retrieve and update the first order quantity of the first part stored in the central database according to the first part information, and determine whether the current stock of the first part is sufficient according to the first order quantity and the first stock quantity.

The first order tracking unit 1212 is configured to update the first inventory amount, the first quality inspection amount to be shipped, and the first quantity to be shipped of the first part according to a preset first order tracking method, and send first delivery information to the user and the first customer.

Specifically, delivery confirmation information is sent to the user, after the user confirms delivery, a first inventory and a first quality inspection quantity to be delivered of the first part are updated, and first quality inspection pre-estimation time is pre-estimated according to the updated first quality inspection quantity to be delivered; sending the updated first quality inspection quantity to be delivered and the first estimated time of the quality inspection of the delivered goods as first delivery information to the user and the first client, and waiting for receiving first quality inspection completion information input by the user; and after receiving the first delivery quality inspection completion information, updating the first to-be-delivered quantity of the first part, and estimating the first delivery estimation time according to the updated first to-be-delivered quantity.

The second order tracking unit 1213 is configured to update the first planned demand amount, the first production amount, the first procurement amount, the first export production amount, the first quality inspection amount to be put in storage, and the first inventory amount of the first part according to a preset second order tracking method, and send second delivery information to the user and the first customer.

Specifically, the inventory shortage information is sent to the user, the first planned demand of the first part is updated, and corresponding first replenishment order information is generated according to a second difference and the first part information; acquiring a first replenishment mode selected by the user according to the first replenishment prompt, updating a first yield, a first purchase amount and a first outsourced production amount of the first part according to the first replenishment mode, and predicting first replenishment prediction time; after the first supply goods information is received, updating the first to-be-warehoused quality inspection quantity of the first part, and estimating first warehousing quality inspection estimation time according to the updated to-be-warehoused quality inspection quantity; and updating the first inventory amount of the first part after receiving the first warehousing quality inspection completion information. In one embodiment, the second difference is an absolute value of a difference between the first inventory amount and the first order amount, and the first replenishment order information includes a first replenishment prompt and a first replenishment mode. In one embodiment, the first replenishment mode includes a first production replenishment amount, a first procurement replenishment amount, and a first export co-production replenishment amount.

The first communication module 122 is configured to send the updated first quantity to be delivered and the first estimated delivery time as updated first delivery information to the user and the first customer; sending the first replenishment mode and the first replenishment estimated time to the user and the first client as second delivery information, and waiting for receiving first replenishment information input by the user; sending the updated first to-be-warehoused quality inspection amount and the first warehousing quality inspection estimated time as updated second delivery information to the user and the first client, and waiting for receiving first warehousing quality inspection completion information input by the user; and sending the updated first to-be-delivered quantity and the updated first delivery estimated time as updated first delivery information to the user and the first client. In one embodiment, a first expedited delivery alert sent by the first customer is received.

The input display module 123 is configured to obtain first order information input by a user; displaying the updated first inventory quantity, the first quality inspection quantity to be delivered and the first quantity to be delivered of the first part; and displaying the updated first planned demand, first production, first procurement, first export production, first quality inspection to be warehoused and first inventory of the first part. In one embodiment, the input display module 123 is further configured to receive a first parameter set of the plurality of parts input by the user.

In one embodiment, the input display module 123 includes a display screen and an input keyboard. In one embodiment, the display screen includes a virtual keyboard that can be entered.

In one embodiment, the intelligent tracking management device 12 further comprises a database module 124, wherein the database module 124 is configured to establish a central database according to the first parameter group of each part, and display the data in the central database in a preset manner.

In one embodiment, the intelligent tracking management device 12 further comprises a customer prompting module 125 configured to package and send or display the first expedited delivery alert and the first order information to the user.

The invention provides an intelligent tracking management device for automatic part orders, which not only realizes intelligent monitoring, tracking and displaying of the whole processes of order taking, warehouse entering and exiting, quality inspection, production and outsourced production, purchasing, delivery and the like of the orders, but also pushes the delivery state and predicted delivery time of the orders to a client and improves the consumption experience of the client by uniformly monitoring, updating and managing the ordered quantity, the inventory quantity, the quality inspection quantity of goods to be delivered, the planned demand quantity, the production quantity, the purchase quantity, the outsourced production quantity, the quality inspection quantity to be warehoused, the inventory quantity and the like of the parts in real time and sending first delivery information or second delivery information to the client; furthermore, the intelligent tracking management device for the automatic part orders receives prompt delivery reminding of the customers and pushes the reminding and corresponding order form information to the users, so that the users can better control the requirements of the customers and better control scheduling delivery strategies.

Detailed description of the invention

Besides the method and the device, the invention also provides an intelligent tracking management system for the automatic part orders. FIG. 4 illustrates a block diagram of one embodiment of an intelligent tracking management system for automated part orders, according to the present invention.

As shown in fig. 4, the intelligent tracking management system 1 includes a client device 11 and the intelligent tracking management apparatus 12 for automated part orders as described above, wherein the client device 11 includes a second communication module 111; the client device 11 and the intelligent tracking management apparatus 12 are communicatively connected through the first communication module 111 and the second communication module 122.

In the order intelligent tracking management process, the intelligent tracking management device 12 executes the intelligent tracking management method of the automated part order as described above, and communicates with the first communication module 111 of the client apparatus 11 through the second communication module 122, so as to transmit the first delivery information and the second delivery information to the client apparatus 11, or receive the first prompt delivery prompt from the client apparatus 11.

In one embodiment, the intelligent tracking management system 11 further comprises a customer premise equipment 13, and the customer premise equipment 13 further comprises a third communication module 131, and the third communication module 131 is in communication connection with the second communication module 122. During the intelligent tracking management process of the order, the customer premise equipment 13 may control the intelligent tracking management device 12 through the second communication module 122, or receive any parameter or information in the intelligent tracking management device 12 through the second communication module 122, wherein the receiving may be actively requesting or passively receiving.

The invention provides an intelligent tracking management system for automatic part orders, which not only realizes intelligent monitoring, tracking and displaying of the whole processes of order taking, warehouse entering and exiting, quality inspection, production and outsourced production, purchasing, delivery and the like of the orders, but also pushes the delivery state and predicted delivery time of the orders to a client and improves the consumption experience of the client by uniformly monitoring, updating and managing the ordered quantity, the inventory quantity, the quality inspection quantity of goods to be delivered, the planned demand quantity, the production quantity, the purchase quantity, the outsourced production quantity, the quality inspection quantity to be put in storage, the inventory quantity and the like of all parts in real time and sending first delivery information or second delivery information to the client; furthermore, the intelligent tracking management system for the automatic part orders receives prompt delivery reminding of the customers and pushes the reminding and corresponding order form information to the users, so that the users can better control the requirements of the customers and better control scheduling delivery strategies.

The above-mentioned embodiments are provided to further explain the objects, technical solutions and advantages of the present invention in detail, and it should be understood that the above-mentioned embodiments are only examples of the present invention and are not intended to limit the scope of the present invention. It should be understood that any modifications, equivalents, improvements and the like, which come within the spirit and principle of the invention, may occur to those skilled in the art and are intended to be included within the scope of the invention.

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